Francesco TORNABENE

Francesco TORNABENE

Professore II Fascia (Associato)

Settore Scientifico Disciplinare ICAR/08: SCIENZA DELLE COSTRUZIONI.

Dipartimento di Ingegneria dell'Innovazione

Edificio La Stecca - S.P. 6, Lecce - Monteroni - LECCE (LE)

Ufficio 1° Piano - Edificio La Stecca, Piano 1°

Telefono +39 0832 29 7275

Professore Associato (Associate Professor)

Area di competenza:

Theory of Shells, Plates, Arches & Beams, Generalized Differential & Integral Quadrature Method & Finite Element Method (GDQM & GIQM & FEM), Strong and Weak Formulation Finite Element Methods (SFEM & WFEM), Fracture Mechanics: Piezoelectric Materials, Stability of Equilibrium: Non-Conservative Forces, Strong Formulation IsoGeometric Analysis, Weak Formulation IsoGeometric Analysis

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Dipartimento di Ingegneria dell'Innovazione

Edificio La Stecca, Monteroni - LECCE (LE)

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Curriculum Vitae

Curriculum Vitae et Studiorum

 

2004 - 2022

 

Ph.D. Ing. FRANCESCO TORNABENE

 

Index

1  PERSONAL INFORMATION AND SHORT BIOGRAPHY

    1.1  List of Titles

2  SCIENTIFIC ACTIVITIES

    2.1  Research Topics

    2.2  Research Activities

       2.2.1  Structural Mechanics

       2.2.2  Innovative and Smart Materials

       2.2.3  Computational Mechanics and Numerical Techniques

       2.2.4  Other research topics (Fracture Mechanics, Experimental Mechanics)

    2.3  List of Publications

       2.3.1  Papers published in International Journals

          2.3.1.1  Editorials in International Journals

       2.3.2  International Monographs

       2.3.3  National Monographs

       2.3.4  Publications in International Conferences

       2.3.5  Publications in National Conferences

    2.4  Editorial Board Activities and Review

       2.4.1  Editor-in-Chief of International Journals

       2.4.2  Editor-In-Chief of International Book Series

       2.4.3  Guest Editor Activities

       2.4.4  Member of the Editorial Board of International Journals

       2.4.5  Reviewer for International Journals

       2.4.6  Reviewer for Research Projects and VQR-ANVUR

    2.5  Partecipation to Research Projects

    2.6  Partecipation to Contracts and Agreements

    2.7  Organizing Activities

    2.8  Institutional Roles

    2.9  Professor Doctorate Boarding, Committee of Doctorate and Research Grants

    2.10  Bibliometric Indices

3  TEACHING ACTIVITIES

    3.1  Classes

    3.2  Exam Committee

    3.3  Advisor of PhD Theses and Scientific Advisor of Research Grants

    3.4  Co-Advisor of PhD Theses

    3.5  Advisor of Theses

    3.6  Co-Advisor of Theses

    3.7  Tutor for Internships

    3.8  Education

 

1  PERSONAL INFORMATION AND SHORT BIOGRAPHY

Francesco Tornabene

Born in Bologna, on January 13th, 1978

Address: via Giacomo Matteotti, 38

40129 Bologna

Office phone: +39 0832297385

Mobile phone: 3208413489

e-mail: francesco.tornabene@unisalento.it

Position: Associate professor

SSD: Structural Mehcanics, ICAR/08

Affiliation (since September 10th 2018): Department of Innovation Engineering, Università del Salento, Lecce.

Affiliation (from 1st January 2004 to September 9th 2018): DICAM, Dipartimento di Ingegneria Civile, Chimica, Ambientale e dei Materiali, Scuola di Ingegneria e Architettura, Alma Mater Studiorum - University of Bologna, Bologna.

 

1.1  List of Titles

2004 - Today: Author of more than 270 scientific publications.

2004 - Today: Reviewer activity for more than 240 National and International Journals.

November 2020: Highly Cited Researcher by Clarivate Analytics,

(https://recognition.webofscience.com/awards/highly-cited/2020).

January 2022 - Today: Associate Professor at the University of Salento.

2020 - Today: Associate Editor of the International Journal: Frontiers in Built Environment, Section Computational Methods in Structural Engineering (from September 2019 to Today).

January 2020 - Today: Editor of the International Journal: HighTech and Innovation Journal.

November 2019: Highly Cited Researcher by Clarivate Analytics,

(https://recognition.webofscience.com/awards/highly-cited/2019).

August 2019: inserted in the 100000 Top Scientists List (https://doi.org/10.1371/journal.pbio.3000384).

2019 - Today: Associate Editor of the International Journal: Mechanics Based Design of Structures and Machines (from August 2019 to Today).

January 2017 - Today: Editor-In-Chief of the International Journal: Journal of Composites Science.

2017 - Today: Co-Editor of the International Journals: Science and Engineering of Composite Materials (from December 2018 to Today) and The Open Civil Engineering Journal (from August 2017 to Today).

2015 - Today: Editor of the International Journals: Heliyon (from January 2018 to Today) and Mathematical Problems in Engineering (from December 2015 to Today).

2015 - Today: Guest Editor of 11 Special Issues.

2014 - Today: Editor-In-Chief of the International Journal: Curved and Layered Structures.

7 February 2019: Ambassador of Bologna Award for the organization of 21st International Conference on Composite Structures ICCS21, 4-7 September 2018, Bologna, Italy. (https://events.unibo.it/iccs21)

November 2018: Highly Cited Researcher by Clarivate Analytics,

(https://clarivate.com/news/global-highly-cited-researchers-2018-list-reveals-influential-scientific-researchers-and-their-institutions/).

September 2018 - Today: Lecturer at the University of Salento for the following Classes: Mechanics of Solids and Structures for the a.y. 2018/2019, 2019/2020; Computational Mechanics for the a.y. 2018/2019, 2019/2020, 2020/2021, 2021/2022; Dymanics of Structures for the a.y. 2020/2021; Biomechanics for the a.y. 2021/2022.

September 2018 - Today: Assistant Professor at the University of Salento.

July 2018 - Today: Member of the European Academy of Sciences (EurASc, http://www.eurasc.org).

June 2018 - Today: Member of the International Research Center on Mathematics and Mechanics of Complex Systems (M&MOCS, http://memocs.univaq.it).

5 April 2018 - 5 April 2024: National Academic Qualification as Full Professor in Mechanics of Solids and Structures (08/B2)

September 2017: First author of the scientific paper: “F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2018) - Mechanical Behavior of Damaged Laminated Composites Plates and Shells: Higher-Order Shear Deformation Theories, Composite Structures 189, 304-329”, winner of “IAN MARSHALL’S AWARD for Best Student Paper” during the ICCS20, 20th International Conference on Composite Structures, September 4, 2017.

7 April 2017 - 7 April 2023: National Academic Qualification as Associate Professor in Mechanics of Solids and Structures (08/B2) and Aeronautic, Aerospace and Naval Engineering (09/A1).

January 2017 - Today: 35th position in the Top Italian Scientists List (Engineering Area) (http://www.topitalianscientists.org/TIS_HTML/Top_Italian_Scientists_Engineering.htm).

October 2016: Second Author of the scientific paper: “N. Fantuzzi, F. Tornabene, M. Bacciocchi, R. Dimitri (2017) - Free Vibration Analysis of Arbitrarily Shaped Functionally Graded Carbon Nanotube-Reinforced Plates, Composites Part B 115, 384-408” winner of the “Best Student Paper Award”, during the International Conference Multiscale Innovative Materials and Structures - MIMS16, October 28-30, 2016.

April 2015 - Today: Representative for the Erasmus exchanges of the School of Engineering and Architecture for the Civil Engineering courses and for several internship in companies.

2015 - Today: Member of the Scientific Committee of 20 International Conferences.

2014 - Today: Co-Chair and Local Organizer of 7 International Conferences.

2013 - Today: Organizer of 5 Mini-Symposia.

April 2014: First Author of the Scientific Paper: “F. Tornabene, A. Ceruti (2013) - Free-Form Laminated Doubly-Curved Shells and Panels of Revolution Resting on Winkler-Pasternak Elastic Foundations: A 2-D GDQ Solution for Static and Free Vibration Analysis, World Journal of Mechanics 3(1), 1-25”, considered as one of the best papers published in the Engineering section at the Scientific Research Publishing Inc.

2013 - Today: Member of the Editorial Board of 38 International Journals.

June 2013: First Author of the Scientific Paper: “F. Tornabene, N. Fantuzzi, E. Viola, E. Carrera (2014) - Static Analysis of Doubly-Curved Anisotropic Shells and Panels using CUF Approach, Differential Geometry and Differential Quadrature Method, Composite Structures 107, 675-697”, winner of the “IAN MARSHALL’S AWARD for Best Student Paper” during ICCS17, 17th International Conference on Composite Structures, June 21, 2013.

April 2012 - Today: Member of the Scientific Committee of the CIMEST Centre.

June 2012 - Today: introduced in the website Shell Buckling People (http://shellbuckling.com/people.php).

April 2012 - Today: Author, promoter and developer of the software DiQuMASPAB (Differential Quadrature for Mechanics of Anisotropic Shells, Plates, Arches and Beams).

April 2012 - September 2018: Lecturer at the Alma Mater Studiorum - University of Bologna for the following Classes: Dynamics of Structures M for the a.y. 2012/2013 and 2013/2014; Computational Mechanics M fort the a.y. 2013/2014; Theory of Structures M from the a.y. 2014/2015 to 2017/2018; Plates and Shells M from the a.y. 2014/2015 to 2017/2018.

April 2012 - September 2018: Assistant professor at the Alma Mater Studiorum - University of Bologna.

2012 - Today: Invited Chairman and organizer of thematic sessions in 8 International Conferences.

November 2011 - January 2012: Fixed-term researcher for the research programme entitled: Advanced Computation systems for Anisotropic Materials.

February 2011 - October 2011: Owner of the Research Grant entitled: Design Methodologies for Recycling Applied to the Nautical Field.

2009 - Today: Research Activity in collaboration with Professors of Foreign and National Universities, such as: Daniel J. Inman, Isaac B. Elishakoff, Serge Abrate, J.N. Reddy, Antonio J.M. Ferreira, Erasmo Carrera, Romesh C. Batra, Mohamad S. Qatu, Ashraf M. Zenkour, Moshe Eisenberger, Alex Kalamkarov, Salvatore Brischetto, Fernando Fraternali, Luigi Ascione, Saeed Kamarian, Ramkumar Kandasamy, Yong Li, Giovanni Della Puppa, M. Trautz, S. Cao, M. Nejati, A. Asanjarani, Giorgio Zavarise, Patrizia Trovalusci, Francesco Ubertini, Stefania Tomasiello, R. Jiwari, Domagoj Lanc, Rita F. Rango, Liz G. Nallim.

January 2007 - January 2009: Owner of the Research Grant entitled: Unified Formulation of Shell Structures Made of Anisotropic Materials. Numerical Analysis by means of the Generalized Differential Quadrature Method and the Finite Element Method.

May 2007: Obtained the PhD in Mechanics of Structures. Title of the Thesis: Modeling and Solution of Shell Structures made of Anisotropic Material.

January 2005 - December 2011: Adjunt Professor (tutor contract) teaching assistantship for the classes of Structural Mechanics L, a.y. 2005/2006 and a.y. 2007/2008, for the classes of Mechanics Design and Laboratory T, a.y. 2010/2011.

November 2004: Winner of the Carlo Felice Jodi grant for graduated students in structural mechanics.

January 2004: Qualification for the Mechanical Engineering Profession.

Dicembre 2003: First position obtained in the competition for the admission in the PhD courses in Mechanics of Structures.

July 2003: Degree in Mechanical Engineering at the Alma Mater Studiorum – University of Bologna. Title of the thesis: Dynamic Behavior of Cylindrical Shells: Formulation and Solution.

July 2001: Patent for the Industrial InventionFriction Clutch for High Performance Vehicles”, Question n. BO2001A00442 field on 13-07-2001 in Bologna. Owner: Alma Mater Studiorum - University of Bologna.

Luglio 1997: High School Degree (“Maturità Classica) achieved at the Liceo Classico “S. Luigi” in Bologna.

 

2  SCIENTIFIC ACTIVITIES

The investigated research topics are the following:

 

2.1  Research Topics

  1. Research activity in “Structural Mechanics”: Theory of Plates and Shells, Theory of Arches with Variable Cross-Section and Curvature, Theory of Beams.
  2. Research activity in “Computational Mechanics”: Generalized Differential Quadrature Method, Finite Element Method, Strong Formulation Finite Elements, Time Integration Methods.
  3. Research activity in “Innovative Materials and Smart Materials”: Functionally Graded Materials, Carbon Nanotubes, Variable Angle-Tow Composites.
  4. Research activity in “Fracture Mechanics”: Orthotropic and Piezoelectric Materials.
  5. Research activity in “Elastic Stability”: Non-Conservative Forces.

 

2.2  Research Activities

The research activity aims at investigating the structural behavior of composite doubly-curved shells, focusing on the innovative industrial processes for the development of novel classes of materials. All the proposed models are constantly validated by means of different numerical methods, including the classical finite element method, the differential quadrature and mesh-free methods. The scientific production can be subdivided in the following macro categories.

 

2.2.1  Structural Mechanics

The research activity in the structural mechanics topic has focused on the analysis of plates and shells made of composite materials. Shell structures occupy an important role in civil, mechanical, architectural, aerospace and naval engineering. The wide use of shells in engineering is related to several advantages. These structures show an extraordinary efficiency in bearing with external loads, a high degree of resistance, good stiffness and a high strength-to-weight ratio. For these reasons, doubly-curved shells have been the main topic of several researches from 1940 up to date.

A shell is a three-dimensional solid that can be studied with the classical theory of elasticity. However, the calculations based on this kind of theory could be computationally burdensome, since these models require a huge number of degrees of freedom. The initial three-dimensional problem is reduced to a two-dimensional one defined on the middle surface of the structure through the introduction of appropriate hypotheses. In addition to the classic theory of elasticity (3D Elasticity), several Higher-order Shear Deformation Theories (HSDTs), characterized by different kinematic models, have been developed and analyzed. The theoretical framework on which these theories are based is given by the so-called Carrera Unified Formulation (CUF). The formulation in hand has allowed the study and the consequent implementation in a computational code of two different approaches to deal with composite doubly-curved shells: the Equivalent Single Layer (ESL) and the Layer-Wise (LW). The first approach uses a kinematic expansion of the generalized displacements referred to the shell middle surface; the second one, instead, considers the displacements on the lower and upper surfaces of each layer within the laminate as main degrees of freedom, whereas the intermediate displacements represent the kinematic expansion of the model. Note that the CUF includes most of the classical theories, such as the Classical Shell Theories (CSTs) and the First-order Shear Deformation Theories (FSDTs). Examples of these approaches are the Kirchhoff-Love and Reissner-Mindlin theories, respectively.

The geometries under investigation includes doubly-curved shells and panels (shells of revolution and shells of translations), singly-curved shells (conical, cylindrical and spherical shells), and degenerate shells (circular and rectangular plates). By means of the differential geometry, it has been possible to evaluate all the geometric parameters involved in the governing equations of the considered structures. In the more general circumstance of arbitrarily-shaped shells, the coefficients at issues, such as the main radii of curvature, have been defined in a principal and orthogonal curvilinear coordinate system. In addition, free-form shells and panels have been investigated. Their peculiar shapes have been mathematically defined by means of the so-called Bézier curves.

The structural theories that describe the mechanical behavior of a singly-curved shell of translation are used also to deduce the corresponding higher-order theories for planar beams with curvilinear axis made of composite materials. The Carrera Unified Formulation still represents the theoretical framework of the theories at issue. Nevertheless, the expansion along the width coordinate has been neglected in order to analyze arches and beams characterized by variable cross-sections and curvatures.

The validity of these models has been proven by many numerical applications, in terms of dynamic and static behavior. In particular, a posteriory stress and strain recovery procedure has been developed for the static analysis. This procedure has allowed to obtain useful results for the structural design, by using the three-dimensional elasticity equations. This aims at avoiding the delamination, an issue that typically affects laminated composites. All the results have been accomplished by means of a MATLAB code and can be easily reproduced again. The comparison with the values obtained by some commercial codes, such as Ansys, Nastran, Abaqus, Femap, VisualNastran Desktop, Pro\Engineer and Straus, has allowed to validate each structural model.

Arches & Beams

  1. E. Viola, F. Tornabene (2005) - Vibration Analysis of Damaged Circular Arches with Varying Cross-section, Structural Integrity and Durability (SID-SDHM) 1(2), 155-169. (IF2005 -, ISSN: 1930-2983).
  2. E. Viola, M. Dilena, F. Tornabene (2007) - Analytical and Numerical Results for Vibration Analysis of Multi-Stepped and Multi-Damaged Circular Arches, Journal of Sound and Vibration 299(1-2), 143-163. (IF2007 1.024, ISSN: 0022-460X).
  3. E. Viola, L. Panzacchi, F. Tornabene (2007) - General Analysis and Application to Redundant Arches under Static Loading, Construction and Building Materials 21(5), 1129-1143. (IF2007 0.841, ISSN: 0950-0618).
  4. A. Marzani, F. Tornabene, E. Viola (2008) - Nonconservative Stability Problems via Generalized Differential Quadrature Method, Journal of Sound and Vibration 315(1-2), 176-196. (IF2008 1.364, ISSN: 0022-460X).
  5. F. Tornabene, A. Marzani, E. Viola, I. Elishakoff (2010) - Critical Flow Speeds of Pipes Conveying Fluid by the Generalized Differential Quadrature Method, Advances in Theoretical and Applied Mechanics 3(3), 121-138. (IF2010 -, ISSN: 1313-6550).
  6. G. Carpentieri, F. Tornabene, L. Ascione, F. Fraternali (2015) - An Accurate One-Dimensional Theory for the Dynamics of Laminated Composite Curved Beams, Journal of Sound and Vibration 336(1), 96-105. (IF2015 2.107, ISSN: 0022-460X).
  7. R. Dimitri, F. Tornabene (2015) - A Parametric Investigation of the Seismic Capacity for Masonry Arches and Portals of Different Shapes, Engineering Failure Analysis 52(1), 1-34. (IF2013 1.130, ISSN: 1350-6307).
  8. F. Tornabene, R. Dimitri, E. Viola (2016) - Transient Dynamic Response of Generally-Shaped Arches Based on a GDQ-Time-Stepping Method, International Journal of Mechanical Sciences 114, 277-314. (IF2015 2.481, ISSN: 0020-7403).
  9. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - Refined Shear Deformation Theories for Laminated Composite Arches and Beams with Variable Thickness: Natural Frequency Analysis, Engineering Analysis with Boundary Elements 100, 24-47. (IF2016 1.721, ISSN: 0955-7997).
  10. F. Fazzolari, S. Scott, F. Tornabene (2021) - A 1D Ritz-Jacobi Formulation for the Modal Analysis of 3D Anisotropic Laminated Composite and Soft-Core Sandwich Beam Structures Through 2D Polynomials, Thin-Walled Structures 169(1) 108428, 1-21. (IF2018 4.488, ISSN: 0263-8231).

Plates & Shells

  1. E. Viola, F. Tornabene (2006) - Vibration Analysis of Conical Shell Structures Using GDQ Method, Far East Journal of Applied Mathematics 25(1), 23-39. (IF2006 -, ISSN: 0972-0960).
  2. F. Tornabene, E. Viola (2007) - Vibration Analysis of Spherical Structural Elements Using the GDQ Method, Computers and Mathematics with Applications 53(10), 1538-1560. (IF2007 0.72, ISSN: 0898-1221).
  3. F. Tornabene, E. Viola (2008) - 2-D Solution for Free Vibrations of Parabolic Shells Using Generalized Differential Quadrature Method, European Journal of Mechanics - A/Solids 27(6), 1001-1025. (IF2008 1.674, ISSN: 0997-7538). 14th Position in the TOP 25 Hottest Articles for European Journal of Mechanics - A/Solids, July to September 2008. 3th Position in the TOP 25 Hottest Articles for European Journal of Mechanics - A/Solids, October to December 2008. Included in Most Cited European Journal of Mechanics - A/Solids Articles (http://www.journals.elsevier.com/european-journal-of-mechanics-asolids/most-cited-articles/).
  4. F. Tornabene (2011) - Free Vibrations of Laminated Composite Doubly-Curved Shells and Panels of Revolution via the GDQ Method, Computer Methods in Applied Mechanics and Engineering 200(9-12), 931-952. (IF2011 2.651, ISSN: 0045-7825).
  5. F. Tornabene (2011) - 2-D GDQ Solution for Free Vibrations of Anisotropic Doubly-Curved Shells and Panels of Revolution, Composite Structures 93(7), 1854-1876. (IF2011 2.24, ISSN: 0263-8223).
  6. F. Tornabene (2011) - Free Vibrations of Anisotropic Doubly-Curved Shells and Panels of Revolution with a Free-Form Meridian Resting on Winkler-Pasternak Elastic Foundations, Composite Structures 94(1), 186-206. (IF2011 2.24, ISSN: 0263-8223).
  7. F. Tornabene, A. Liverani, G. Caligiana (2012) - Laminated Composite Rectangular and Annular Plates: A GDQ Solution for Static Analysis with a Posteriori Shear and Normal Stress Recovery, Composites Part B Engineering 43(4), 1847-1872. (IF2012 2.143, ISSN: 1359-8368).
  8. F. Tornabene, A. Liverani, G. Caligiana (2012) - Static Analysis of Laminated Composite Curved Shells and Panels of Revolution with a Posteriori Shear and Normal Stress Recovery Using Generalized Differential Quadrature Method, International Journal of Mechanical Sciences 61(1), 71-87. (IF2012 1.613, ISSN: 0020-7403).
  9. F. Tornabene, A. Liverani, G. Caligiana (2012) - General Anisotropic Doubly-Curved Shell Theory: A Differential Quadrature Solution for Free Vibrations of Shells and Panels of Revolution with a Free-Form Meridian, Journal of Sound and Vibration 331(22), 4848-4869. (IF2012 1.613, ISSN: 0022-460X).
  10. A.J.M. Ferreira, E. Viola, F. Tornabene, N. Fantuzzi, A.M. Zenkour (2013) - Analysis of Sandwich Plates by Generalized Differential Quadrature Method, Mathematical Problems in Engineering Vol. 2013, Article ID 964367, 1-22, http://dx.doi.org/10.1155/2013/964367. (IF2013 1.082, ISSN: 1024-123X).
  11. F. Tornabene, A. Ceruti (2013) - Free-Form Laminated Doubly-Curved Shells and Panels of Revolution Resting on Winkler-Pasternak Elastic Foundations: A 2-D GDQ Solution for Static and Free Vibration Analysis, World Journal of Mechanics 3(1), 1-25. (IF2013 -, ISSN: 2160-049X).
  12. F. Tornabene, N. Fantuzzi, E. Viola, A.J.M. Ferreira (2013) - Radial Basis Function Method Applied to Doubly-Curved Laminated Composite Shells and Panels with a General Higher-Order Equivalent Single Layer Theory, Composites Part B Engineering 55, 642-659. (IF2013 2.602, ISSN: 1359-8368).
  13. F. Tornabene, E. Viola (2013) - Static Analysis of Functionally Graded Doubly-Curved Shells and Panels of Revolution, Meccanica 48(4), 901-930. (IF2013 1.815, ISSN: 0025-6455).
  14. F. Tornabene, E. Viola, N. Fantuzzi (2013) - General Higher-order Equivalent Single Layer Theory for Free Vibrations of Doubly-Curved Laminated Composite Shells and Panels, Composite Structures 104(1), 94-117. (IF2013 3.12, ISSN: 0263-8223).
  15. E. Viola, F. Tornabene, N. Fantuzzi (2013) - General Higher-Order Shear Deformation Theories for the Free Vibration Analysis of Completely Doubly-Curved Laminated Shells and Panels, Composite Structures 95(1), 639-666. (IF2013 3.12, ISSN: 0263-8223).
  16. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Static Analysis of Completely Doubly-Curved Laminated Shells and Panels Using General Higher-Order Shear Deformation Theories, Composite Structures 101(1), 59-93. (IF2013 3.12, ISSN: 0263-8223). Included (30 May 2013) in the Most Downloaded Composite Structures Articles in the last 90 days (http://www.journals.elsevier.com/composite-structures/most-downloaded-articles/).
  17. A.J.M. Ferreira, E. Carrera, M. Cinefra, E. Viola, F. Tornabene, N. Fantuzzi, A.M. Zenkour (2014) - Analysis of Thick Isotropic and Cross-Ply Laminated Plates by Generalized Differential Quadrature Method and a Unified Formulation, Composites Part B Engineering 58(1), 544-552. (IF2014 2.983, ISSN: 1359-8368).
  18. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - The Local GDQ Method Applied to General Higher-Order Theories of Doubly-Curved Laminated Composite Shells and Panels: The Free Vibration Analysis, Composite Structures 116(1), 637-660. (IF2014 3.318, ISSN: 0263-8223).
  19. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - Free Vibrations of Free-Form Doubly-Curved Shells Made of Functionally Graded Materials Using Higher-Order Equivalent Single Layer Theories, Composites Part B Engineering 67(1), 490-509. (IF2014 2.983, ISSN: 1359-8368).
  20. F. Tornabene, N. Fantuzzi, E. Viola, E. Carrera (2014) - Static Analysis of Doubly-Curved Anisotropic Shells and Panels using CUF Approach, Differential Geometry and Differential Quadrature Method, Composite Structures 107, 675-697. (IF2014 3.318, ISSN: 0263-8223). Winner of the IAN MARSHALL'S AWARD for Best Student Paper at the ICCS17 - 17th International Conference on Composite Structures, June 21, 2013.
  21. F. Tornabene, N. Fantuzzi, E. Viola, J.N. Reddy (2014) - Winkler-Pasternak Foundation Effect on the Static and Dynamic Analyses of Laminated Doubly-Curved and Degenerate Shells and Panels, Composites Part B Engineering 57(1), 269-296. (IF2014 2.983, ISSN: 1359-8368).
  22. E. Viola, L. Rossetti, N. Fantuzzi, F. Tornabene (2014) - Static Analysis of Functionally Graded Conical Shells and Panels Using the Generalized Unconstrained Third Order Theory Coupled with the Stress Recovery, Composite Structures 112(1), 44-65. (IF2014 3.318, ISSN: 0263-8223).
  23. F. Tornabene, S. Brischetto, N. Fantuzzi, E. Viola (2015) - Numerical and Exact Models for Free Vibration Analysis of Cylindrical and Spherical Shell Panels, Composites Part B Engineering 81(1), 231-250. (IF2015 3.850, ISSN: 1359-8368).
  24. F. Tornabene, N. Fantuzzi, M. Bacciocchi, R. Dimitri (2015) - Dynamic Analysis of Thick and Thin Elliptic Shell Structures Made of Laminated Composite Materials, Composite Structures 133(1), 278-299. (IF2015 3.853, ISSN: 0263-8223).
  25. F. Tornabene, N. Fantuzzi, M. Bacciocchi, R. Dimitri (2015) - Free Vibrations of Composite Oval and Elliptic Cylinders by the Generalized Differential Quadrature Method, Thin-Walled Structures 97(1), 114-129. (IF2015 2.063, ISSN: 0263-8231).
  26. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Accurate Inter-Laminar Recovery for Plates and Doubly-Curved Shells with Variable Radii of Curvature Using Layer-Wise Theories, Composite Structures 124(1), 368-393. (IF2015 3.853, ISSN: 0263-8223).
  27. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - A New Approach for Treating Concentrated Loads in Doubly-Curved Composite Deep Shells with Variable Radii of Curvature, Composite Structures 131(1), 433-452. (IF2015 3.853, ISSN: 0263-8223).
  28. E. Viola, F. Tornabene, N. Fantuzzi (2015) - Stress and Strain Recovery of Laminated Composite Doubly-Curved Shells and Panels Using Higher-Order Formulations, Key Engineering Materials 624, 205-213. (IF2015 -, ISSN: 1662-9795).
  29. F. Tornabene (2016) - General Higher Order Layer-Wise Theory for Free Vibrations of Doubly-Curved Laminated Composite Shells and Panels, Mechanics of Advanced Materials and Structures 23(9), 1046-1067. (IF2015 1, ISSN: 1537-6494).
  30. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - The Local GDQ Method for the Natural Frequencies of Doubly-Curved Shells with Variable Thickness: A General Formulation, Composites Part B Engineering 92(1), 265-289. (IF2015 3.850, ISSN: 1359-8368).
  31. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - On the Mechanics of Laminated Doubly-Curved Shells Subjected to Point and Line Loads, International Journal of Engineering Science 109, 115-164. (IF2015 3.165, ISSN: 0020-7225).
  32. F. Tornabene, N. Fantuzzi, M. Bacciocchi, A.M.A. Neves, A.J.M. Ferreira (2016) - MLSDQ Based on RBFs for the Free Vibrations of Laminated Composite Doubly-Curved Shells, Composites Part B: Engineering 99(1), 30-47. (IF2015 3.850, ISSN: 1359-8368).
  33. F. Tornabene, N. Fantuzzi, E. Viola (2016) - Inter-Laminar Stress Recovery Procedure for Doubly-Curved, Singly-Curved, Revolution Shells with Variable Radii of Curvature and Plates Using Generalized Higher-Order Theories and the Local GDQ Method, Mechanics of Advanced Materials and Structures 23(9), 1019-1045. (IF2015 1, ISSN: 1537-6494).
  34. M. Bacciocchi, M. Eisenberger, N. Fantuzzi, F. Tornabene, E. Viola (2016) - Vibration Analysis of Variable Thickness Plates and Shells by the Generalized Differential Quadrature Method, Composite Structures 156(1), 218-237. (IF2015 3.853, ISSN: 0263-8223).
  35. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - The GDQ Method for the Free Vibration Analysis of Arbitrarily Shaped Laminated Composite Shells Using a NURBS-Based Isogeometric Approach, Composite Structures 154(1), 190-218. (IF2015 3.853, ISSN: 0263-8223).
  36. S. Brischetto, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Interpretation of Boundary Conditions in the Analytical and Numerical Shell Solutions for Mode Analysis of Multilayered Structures, International Journal of Mechanical Sciences 122(1), 18-28. (IF2015 2.481, ISSN: 0020-7403).
  37. A.L. Kalamkarov, F. Tornabene, P.M.C.L. Pacheco, M.A. Savi, G.C. Saha (2017) - Geometrically Non-Linear Elastic Model for a Thin Composite Layer with Wavy Surfaces, ZAMM - Journal of Applied Mathematics and Mechanics 97(11), 1381-1392. (IF2016 1.332, ISSN: 0044-2267).
  38. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - A New Doubly-Curved Shell Element for the Free Vibrations of Arbitrarily Shaped Laminated Structures Based on Weak Formulation IsoGeometric Analysis, Composite Structures 171(1), 429-461. (IF2015 3.853, ISSN: 0263-8223).
  39. F. Tornabene, N. Fantuzzi, M. Bacciocchi, J.N. Reddy (2017) - An Equivalent Layer-Wise Approach for the Free Vibration Analysis of Thick and Thin Laminated Sandwich Shells, Applied Sciences 7(1), 17, 1-34. (IF2017 1.689, ISSN: 2076-3417).
  40. F. Tornabene, N. Fantuzzi, M. Bacciocchi, J.N. Reddy (2017) - A Posteriori Stress and Strain Recovery Procedure for the Static Analysis of Laminated Shells Resting on Nonlinear Elastic Foundation, Composites Part B Engineering 126(1), 162-191. (IF2015 3.850, ISSN: 1359-8368).
  41. F. Tornabene, S. Brischetto (2018) - 3D Capability of Refined GDQ Models for the Bending Analysis of Composite and Sandwich Plates, Spherical and Doubly-Curved Shells, Thin-Walled Structures 129, 94-124. (IF2018 3.488, ISSN: 0263-8231).
  42. F. Tornabene, R. Dimitri (2018) - A Numerical Study of the Seismic Response of Arched and Vaulted Structures Made of Isotropic or Composite Materials, Engineering Structures 159(3), 332-366. (IF2016 2.258, ISSN: 0141-0296).
  43. S. Brischetto, F. Tornabene (2018) - Advanced GDQ Models and 3D Stress Recovery in Multi-layered Plates, Spherical and Double-Curved Panels Subjected to Transverse Shear Loads, Composites Part B Engineering 146, 244-269. (IF2015 3.850, ISSN: 1359-8368).
  44. S.A.M. Ghannadpour, A. Kurkaani Barvaj, F. Tornabene (2018) - A Semi-Analytical Investigation on Geometric Nonlinear and Progressive Damage Behavior of Relatively Thick Laminated Plates under Lateral Pressure and End-Shortening, Composite Structures 194, 598-610. (IF2015 3.853, ISSN: 0263-8223).
  45. Y. Kiani, R. Dimitri, F. Tornabene (2018) - Free Vibration of FG-CNT Reinforced Composite Skew Cylindrical Shells using Chebyshev-Ritz Formulation, Composites Part B Engineering 147, 169-177. (IF2015 3.850, ISSN: 1359-8368).
  46. F. Tornabene (2019) - On the Critical Speed Evaluation of Arbitrarily Oriented Rotating Doubly-Curved Shells Made of Functionally Graded Materials, Thin-Walled Structures 140, 85-98. (IF2018 3.488, ISSN: 0263-8231).
  47. F. Tornabene, M. Bacciocchi (2018) - Dynamic Stability of Doubly-Curved Multi-layered Shells Subjected to Arbitrarily Oriented Angular Velocities: Numerical Evaluation of the Critical Speed, Composite Structures 201, 1031-1055. (IF2015 3.853, ISSN: 0263-8223).
  48. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2019) - Foam Core Composite Sandwich Plates and Shells with Variable Stiffness: Effect of Curvilinear Fiber Path on the Modal Response, Journal of Sandwich Structures and Materials 21(1), 320-365. (IF2015 2.852, ISSN: 1099-6362).
  49. M. Avey, F. Tornabene, R. Dimitri, N. Kuruoglu (2021) - Free Vibration of Thin-Walled Composite Shell Structures Reinforced with Uniform and Linear Carbon Nanotubes: Effect of the Elastic Foundation and Nonlinearity, Nanomaterials 11(8), 2090, 1-28. (IF2018 4.034, ISSN: 2079-4991).
  50. F. Fazzolari, M. Viscoti, R. Dimitri, F. Tornabene (2021) - 1D Hierarchical Ritz and 2D GDQ Formulations for the Free Vibration Analysis of Circular/Elliptical Cylindrical Shells and Beam Structures, Composite Structures 258(2) 113338, 1-20. (IF2018 4.829, ISSN: 0263-8223).
  51. A.R. Ghasemi, A. Tabatabaeian, M.H. Hajmohammad, F.Tornabene (2021) - Multi-Step Buckling Optimization Analysis of Stiffened and Unstiffened Polymer Matrix Composite Shells: A New Experimentally Validated Method, Composite Structures 273(1) 114280, 1-10. (IF2018 4.829, ISSN: 0263-8223).
  52. F. Tornabene, M. Viscoti, R. Dimitri, M.A. Aiello (2021) - Higher Order Formulations for Doubly-Curved Shell Structures with a Honeycomb Core, Thin-Walled Structures 164(1) 107789, 1-36. (IF2018 4.488, ISSN: 0263-8231).
  53. F. Tornabene, M. Viscoti, R. Dimitri, M.A. Aiello (2021) - Higher-Order Modeling of Anisogrid Composite Lattice Structures with Complex Geometries, Engineering Structures 244(1) 112686, 1-43. (IF2018 3.084, ISSN: 0141-0296).
  54. F. Tornabene, M. Viscoti, R. Dimitri, J.N. Reddy (2021) - Higher Order Theories for the Vibration Study of Doubly-Curved Anisotropic Shells with a Variable Thickness and Isogeometric Mapped Geometry, Composite Structures 267(1) 113829, 1-29. (IF2018 4.829, ISSN: 0263-8223).
  55. F. Tornabene, M. Viscoti, R. Dimitri (2021) - Higher-Order Theories for Doubly Curved Laminated Lattice and Honeycomb Structures, in: 14th WCCM-ECCOMAS Congress 2020, WCCM-ECCOMAS2020. URL: https://www.scipedia.com/public/Tornabene_Dimitri_2021a.
  56. F. Tornabene, M. Viscoti, R. Dimitri (2022) - Generalized Higher Order Layerwise Theory for the Dynamic Study of Anisotropic Doubly-Curved Shells with a Mapped Geometry, Engineering Analysis with Boundary Elements 134, 147-183. (IF2016 1.721, ISSN: 0955-7997).

 

2.2.2  Innovative and Smart Materials

Due to the recent development in the material field, a special attention has been paid to innovative materials, such as Functionally Graded Materials (FGMs), which allows to define variable mechanical properties along the shell thickness. In particular, three different distributions have been considered to define the volume fraction of their constituents: a five-parameter power law, the Weibull distribution and an exponential distribution. The effect of the variation of the parameters that characterize these laws on the natural frequencies, as well as on the static response, has been investigated by means of several numerical applications. The theory of mixture and the Mori-Tanaka scheme have been used to evaluate the overall mechanical properties of the FGMs.

Composites reinforced by Carbon Nanotubes (CNTs) are another example of the application of innovative materials. It is possible, in fact, to improve the mechanical behavior of the structures in terms of stiffness and strength by inserting these nanoparticles within the layers.

Finally, the so-called Variable Angle Tow (VAT) composites have been investigated in the field of the innovative materials. These composites are characterized by variable mechanical properties within the reference domain. In particular, these materials allow to design more efficiently the mechanical properties of a composite layer, in order to improve the mechanical response of a structure. The mathematical description of the variable properties has been obtained by means of a general law that is able to define the curvilinear paths of the reinforcing fibers. Several parametric studies have been performed to investigate the effect of the orientation of the fbers on the dynamic and static responses of plates and shells. The same mathematical formulation has been used also to characterize the variable thickness of the same structures or directly the mechanical features of the structure in terms of elastic coefficients.

  1. F. Tornabene (2009) - Free Vibration Analysis of Functionally Graded Conical, Cylindrical Shell and Annular Plate Structures with a Four-parameter Power-Law Distribution, Computer Methods in Applied Mechanics and Engineering 198(37-40), 2911-2935. (IF2009 1.806, ISSN: 0045-7825). Included in the Most Cited Computer Methods in Applied Mechanics and Engineering Articles (http://www.journals.elsevier.com/computer-methods-in-applied-mechanics-and-engineering/most-cited-articles/).
  2. F. Tornabene, E. Viola (2009) - Free Vibration Analysis of Functionally Graded Panels and Shells of Revolution, Meccanica 44(3), 255-281. (IF2009 0.892, ISSN: 0025-6455).
  3. F. Tornabene, E. Viola (2009) - Free Vibrations of Four-Parameter Functionally Graded Parabolic Panels and Shells of Revolution, European Journal of Mechanics - A/Solids 28(5), 991-1013. (IF2009 1.815, ISSN: 0997-7538). 15th Position in the TOP 25 Hottest Articles for European Journal of Mechanics - A/Solids, July to September 2009. Included in Most Cited European Journal of Mechanics - A/Solids Articles (http://www.journals.elsevier.com/european-journal-of-mechanics-asolids/most-cited-articles/).
  4. F. Tornabene, E. Viola, D.J. Inman (2009) - 2-D Differential Quadrature Solution for Vibration Analysis of Functionally Graded Conical, Cylindrical Shell and Annular Plate Structures, Journal of Sound and Vibration 328(3), 259-290. (IF2009 1.414, ISSN: 0022-460X). 24th Position in the TOP 25 Hottest Articles for Journal of Sound and Vibration, October to December 2009. Included in Most Cited Journal of Sound and Vibration Articles (http://www.journals.elsevier.com/journal-of-sound-and-vibration/most-cited-articles/).
  5. E. Viola, F. Tornabene (2009) - Free Vibrations of Three Parameter Functionally Graded Parabolic Panels of Revolution, Mechanics Research Communications 36(5), 587-594. (IF2009 1.085, ISSN: 0093-6413). Included in the Most Cited Mechanics Research Communications Articles (http://www.journals.elsevier.com/mechanics-research-communications/most-cited-articles/).
  6. F. Tornabene, A. Liverani, G. Caligiana (2011) - FGM and Laminated Doubly-Curved Shells and Panels of Revolution with a Free-Form Meridian: a 2-D GDQ Solution for Free Vibrations, International Journal of Mechanical Sciences 53(6), 446-470. (IF2011 1.231, ISSN: 0020-7403). 17th Position in the TOP 25 Hottest Articles for International Journal of Mechanical Sciences, April to June 2011.
  7. F. Tornabene, A. Ceruti (2013) - Mixed Static and Dynamic Optimization of Four-Parameter Functionally Graded Completely Doubly-Curved and Degenerate Shells and Panels Using GDQ Method, Mathematical Problems in Engineering Vol. 2013, Article ID 867079, 1-33, http://dx.doi.org/10.1155/2013/867079. (IF2013 1.082, ISSN: 1024-123X).
  8. F. Tornabene, J.N. Reddy (2013) - FGM and Laminated Doubly-Curved and Degenerate Shells Resting on Nonlinear Elastic Foundations: a GDQ Solution for Static Analysis with a Posteriori Stress and Strain Recovery, Journal of Indian Institute of Science 93(4), 635-688. (IF2013 -, ISSN: 0970-4140).
  9. S. Brischetto, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2015) - Refined 2D and Exact 3D Shell Models for the Free Vibration Analysis of Single- and Double-Walled Carbon Nanotubes, Technologies 3(1), 259-284. (IF2015 -, ISSN: 2227-7080).
  10. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Higher-Order Theories for the Free Vibration of Doubly-Curved Laminated Panels with Curvilinear Reinforcing Fibers by Means of a Local Version of the GDQ Method, Composites Part B Engineering 81(1), 196-230. (IF2015 3.850, ISSN: 1359-8368).
  11. F. Tornabene, N. Fantuzzi, E. Viola, R.C. Batra (2015) - Stress and Strain Recovery for Functionally Graded Free-Form and Doubly-Curved Sandwich Shells Using Higher-Order Equivalent Single Layer Theory, Composite Structures 119(1), 67-89. (IF2015 3.853, ISSN: 0263-8223).
  12. S. Brischetto, F. Tornabene, N. Fantuzzi, E. Viola (2016) - 3D Exact and 2D Generalized Differential Quadrature Models for Free Vibration Analysis of Functionally Graded Plates and Cylinders, Meccanica 51(9), 2059-2098. (IF2016 2.196, ISSN: 0025-6455).
  13. N. Fantuzzi, S. Brischetto, F. Tornabene, E. Viola (2016) - 2D and 3D Shell Models for the Free Vibration Investigation of Functionally Graded Cylindrical and Spherical Panels, Composite Structures 154(1), 573-590. (IF2015 3.853, ISSN: 0263-8223).
  14. N. Fantuzzi, F. Tornabene, E. Viola (2016) - Four-Parameter Functionally Graded Cracked Plates of Arbitrary Shape: a GDQFEM Solution for Free Vibrations, Mechanics of Advanced Materials and Structures 23(1), 89-107. (IF2015 1, ISSN: 1537-6494).
  15. S. Kamarian, M. Salim, R. Dimitri, F. Tornabene (2016) - Free Vibration Analysis of Conical Shells Reinforced with Agglomerated Carbon Nanotubes, International Journal of Mechanical Sciences 108-109(1), 157-165. (IF2015 2.481, ISSN: 0020-7403).
  16. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Effect of Agglomeration on the Natural Frequencies of Functionally Graded Carbon Nanotube-Reinforced Laminated Composite Doubly-Curved Shells, Composites Part B Engineering 89(1), 187-218. (IF2015 3.850, ISSN: 1359-8368).
  17. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - Higher-Order Structural Theories for the Static Analysis of Doubly-Curved Laminated Composite Panels Reinforced by Curvilinear Fibers, Thin-Walled Structures 102(1), 222-245. (IF2014 2.063, ISSN: 0263-8231).
  18. R. Kandasamy, R. Dimitri, F. Tornabene (2016) - Numerical Study on the Free Vibration and Thermal Buckling Behaviour of Moderately Thick Functionally Graded Structures in Thermal Environments, Composite Structures 157(1), 207-221. (IF2015 3.853, ISSN: 0263-8223).
  19. E. Viola, L. Rossetti, N. Fantuzzi, F. Tornabene (2016) - Generalized Stress-Strain Recovery Formulation Applied to Functionally Graded Spherical Shells and Panels Under Static Loading, Composite Structures 156(1), 145-164. (IF2015 3.853, ISSN: 0263-8223).
  20. F. Tornabene, S. Brischetto, N. Fantuzzi, M. Bacciocchi (2016) - Boundary Conditions in 2D Numerical and 3D Exact Models for Cylindrical Bending Analysis of Functionally Graded Structures, Shock and Vibration 2016, Article ID Article ID 2373862, 1-17. (IF2016 0.880, ISSN: 1070-9622).
  21. D. Banić, M. Bacciocchi, F. Tornabene, A.J.M. Ferreira (2017) - Influence of Winkler-Pasternak Foundation on the Vibrational Behavior of Plates and Shells Reinforced by Agglomerated Carbon Nanotubes, Applied Sciences 7(12), 1228, 1-55. (IF2017 1.689, ISSN: 2076-3417).
  22. N. Fantuzzi, F. Tornabene, M. Bacciocchi, R. Dimitri (2017) - Free Vibration Analysis of Arbitrarily Shaped Functionally Graded Carbon Nanotube-Reinforced Plates, Composites Part B Engineering 115(1), 384-408. (IF2015 3.850, ISSN: 1359-8368).
  23. M. Nejati, A. Asanjarani, R. Dimitri, F. Tornabene (2017) - Static and Free Vibration Analysis of Functionally Graded Conical Shells Reinforced by Carbon Nanotubes, International Journal of Mechanical Sciences 130(1), 383-398. (IF2015 2.481, ISSN: 0020-7403).
  24. M. Nejati, R. Dimitri, F. Tornabene, M. Hossein Yas (2017) - Thermal Buckling of Nanocomposite Stiffened Cylindrical Shells Reinforced by Functionally Graded Wavy Carbon Nano-Tubes with Temperature-Dependent Properties, Applied Sciences 7(12), 1223, 1-24. (IF2017 1.689, ISSN: 2076-3417).
  25. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Linear Static Response of Nanocomposite Plates and Shells Reinforced by Agglomerated Carbon Nanotubes, Composites Part B Engineering 115(1), 449-476. (IF2015 3.850, ISSN: 1359-8368).
  26. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Linear Static Behavior of Damaged Laminated Composite Plates and Shells, Materials 10(7), 811, 1-52. (IF2016 2.654, ISSN: 1996-1944).
  27. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Mechanical Behaviour of Composite Cosserat Solids in Elastic Problems with Holes and Discontinuities, Composite Structures 179(1), 468-481. (IF2015 3.853, ISSN: 0263-8223).
  28. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola, J.N. Reddy (2017) - A Numerical Investigation on the Natural Frequencies of FGM Sandwich Shells with Variable Thickness by the Local Generalized Differential Quadrature Method, Applied Sciences 7(2), 131, 1-39. (IF2017 1.689, ISSN: 2076-3417).
  29. F. Zare Jouneghani, R. Dimitri, M. Bacciocchi, F. Tornabene (2017) - Free Vibration Analysis of Functionally Graded Porous Doubly-Curved Shells Based on the First-Order Shear Deformation Theory, Applied Sciences 7(12), 1252, 1-21. (IF2017 1.689, ISSN: 2076-3417).
  30. F. Zare Jouneghani, P. Mohammadi Dashtaki, R. Dimitri, M. Bacciocchi, F. Tornabene (2017) - First-Order Shear Deformation Theory for Orthotropic Doubly-Curved Shells Based on a Modified Couple Stress Elasticity, Aerospace Science and Technology 73, 129-147. (IF2016 2.057, ISSN: 1270-9638).
  31. N. Fantuzzi, L. Leonetti, P. Trovalusci, F. Tornabene (2018) - Some Novel Numerical Applications of Cosserat Continua, International Journal of Computational Methods 15(3), 1850054-1-38. (IF2016 1.053, ISSN: 0219-8762).
  32. M. Arefi, M. Mohammadi, A. Tabatabaeian, R. Dimitri, F. Tornabene (2018) - Two-Dimensional Thermo-Elastic Static Analysis of FG-CNTRC Cylindrical Pressure Vessels, Steel and Composite Structures 27(4), 525-536. (IF2016 3.198, ISSN: 1229-9367).
  33. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, Michele Bacciocchi, F. Tornabene (2018) - Application of Sinusoidal Shear Deformation Theory and Physical Neutral Surface to Analysis of Functionally Graded Piezoelectric Plate, Composites Part B Engineering 151, 35-50. (IF2015 3.850, ISSN: 1359-8368).
  34. M. Arefi, E.M.R. Bidgoli, R. Dimitri, F. Tornabene (2018) - Free Vibrations of Functionally Graded Polymer Composite Nanoplates Reinforced with Graphene Nanoplatelets, Aerospace Science and Technology 81, 108-117. (IF2016 2.057, ISSN: 1270-9638).
  35. Y. Kiani, R. Dimitri, F. Tornabene (2018) - Free Vibration Study of Composite Conical Panels Reinforced with FG-CNTs, Engineering Structures 172, 472-482. (IF2016 2.258, ISSN: 0141-0296).
  36. M. Malikan, V.B. Nguyen, F. Tornabene (2018) - Electro-Magnetic Forced Vibrations of Composite Nanoplates Using Nonlocal Strain Gradient Theory, Materials Research Express 5(075031), 1-20. (IF2016 1.068, ISSN: 2053-1591).
  37. F. Tornabene, M. Bacciocchi (2018) - Effect of Curvilinear Reinforcing Fibers on the Linear Static Behavior of Soft-Core Sandwich Structures, Journal of Composites Science 2(1), 14, 1-43. (IF2018 -, ISSN: 2504-477X).
  38. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2018) - Mechanical Behavior of Damaged Laminated Composites Plates and Shells: Higher-Order Shear Deformation Theories, Composite Structures 189(4), 304-329. (IF2015 3.853, ISSN: 0263-8223).
  39. F. Zare Jouneghani, R. Dimitri, F. Tornabene (2018) - Structural response of porous FG nanobeams under hygro-thermo-mechanical loadings, Composites Part B Engineering 152, 71-78. (IF2015 3.850, ISSN: 1359-8368).
  40. M. Malikan, V.B. Nguyen, F. Tornabene (2018) - Damped Forced Vibration Analysis of Single-Walled Carbon Nanotubes Resting on Viscoelastic Foundation in Thermal Environment Using Nonlocal Strain Gradient Theory, Engineering Science and Technology 21, 778-786. (IF2018 -, ISSN: 2215-0986).
  41. M. Malikan, R. Dimitri, F. Tornabene (2018) - Thermo-Resonance Analysis of an Excited Graphene Sheet Using a New Approach, International Journal of Engineering & Applied Sciences 10(3), 190-206. (IF2015 -, ISSN: 1309-0267).
  42. M. Malikan, R. Dimitri, F. Tornabene (2018) - Effect of Sinusoidal Corrugated Geometries on the Vibrational Response of Viscoelastic Nanoplates, Applied Sciences 8(9), 1432, 1-12. (IF2018 2.217, ISSN: 2076-3417).
  43. M. Malikan, F. Tornabene, R. Dimitri (2018) - Nonlocal Three-dimensional Theory of Elasticity for Buckling Behavior of Functionally Graded Porous Nanoplates Using Volume Integrals, Materials Research Express 5(9; 095006), 1-20. (IF2016 1.068, ISSN: 2053-1591).
  44. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, Michele Bacciocchi, F. Tornabene (2019), Nonlocal Bending Analysis of Curved Nanobeams Reinforced by Graphene Nanoplatelets, Composites Part B Engineering 166, 1-12. (IF2015 3.850, ISSN: 1359-8368).
  45. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, F. Tornabene, J.N. Reddy (2019), Size-Dependent Free Vibrations of FG Polymer Composite Curved Nanobeams Reinforced with Graphene Nanoplatelets Resting on Pasternak Foundations, Applied Sciences 9(8), 1580, 1-19. (IF2018 2.217, ISSN: 2076-3417).
  46. F. Ebrahimi, A. Dabbagh, T. Rabczuk, F. Tornabene (2019) - Analysis of propagation characteristics of elastic waves in heterogeneous nanobeams employing a new two-step porosity-dependent homogenization scheme, Advances in Nano Research 7(2), 135-143. (IF2017 2.333, ISSN: 2287-237X).
  47. F. Ebrahimi, A. Dabbagh, F. Tornabene, O. Civalek (2019) - Wave Propagation Modeling within Magnetostrictive Nanostructure Systems in Hygrothermal Environment, Advances in Nano Research 7(3), 157-166. (IF2017 2.333, ISSN: 2287-237X).
  48. F. Ebrahimi, A. Seyfi, A. Dabbagh, F. Tornabene (2019) - Wave Dispersion Characteristics of Porous Graphene Platelet-Reinforced Composite Shells, Structural Engineering and Mechanics 71(1), 99-107. (IF2018 2.804, ISSN: 1225-4568).
  49. S.A.M. Ghannadpour, M. Karimi, F. Tornabene (2019) - Application of Plate Decomposition Technique in Nonlinear and Post-Buckling Analysis of Functionally Graded Plates Containing Crack, Composite Structures 220, 158-167. (IF2015 3.853, ISSN: 0263-8223).
  50. A.R. Ghasemi, M. Mohandes, R. Dimitri, F. Tornabene (2019) - Agglomeration Effects on the Vibrations of Cnts/Fiber/Polymer/Metal Hybrid Laminates Cylindrical Shell, Composites Part B Engineering 167, 700-716. (IF2015 3.850, ISSN: 1359-8368).
  51. M.H. Jalaei, R. Dimitri, F. Tornabene (2019) - Dynamic Stability of Temperature-Dependent Graphene Sheet Embedded in an Elastomeric Medium, Applied Sciences 9(5), 887, 1-15. (IF2018 2.217, ISSN: 2076-3417).
  52. S.K. Jena, S. Chakraverty, R.M. Jena, F. Tornabene (2019) - A Novel Fractional Nonlocal Model and its Application in Buckling Analysis of Euler-Bernoulli Nanobeam, Materials Research Express 6(5) 055016, 1-17. (IF2016 1.068, ISSN: 2053-1591).
  53. S.K. Jena, S. Chakraverty, F. Tornabene (2019) - Vibration Characteristics of Nanobeam with Exponentially Varying Flexural Rigidity Resting on Linearly Varying Elastic Foundation Using Differential Quadrature Method, Materials Research Express 6(8) 085051, 1-13. (IF2016 1.068, ISSN: 2053-1591).
  54. S.K. Jena, S. Chakraverty, F. Tornabene (2019) - Dynamical Behavior of Nanobeam Embedded in Constant, Linear, Parabolic and Sinusoidal Types of Winkler Elastic Foundation Using First-Order Nonlocal Strain Gradient Model, Materials Research Express 6(8) 0850f2, 1-23. (IF2016 1.068, ISSN: 2053-1591).
  55. S.K. Jena, S. Chakraverty, F. Tornabene (2019) - Buckling Behavior of Nanobeams Placed in Electro-Magnetic Field Using Shifted Chebyshev Polynomials Based Rayleigh-Ritz Method, Nanomaterials 9(9), 1326, 1-15. (IF2018 4.034, ISSN: 2079-4991).
  56. B. Karami, D. Shahsavari, Ma. Janghorban, R. Dimitri, F. Tornabene (2019) - Wave Propagation of Porous Nanoshells, Nanomaterials 9(1), 22, 1-19. (IF2018 4.034, ISSN: 2079-4991).
  57. B. Karami, M. Janghorban, D. Shahsavari, R. Dimitri, F. Tornabene (2019) - Nonlocal Buckling Analysis of Composite Curved Beams Reinforced with Functionally Graded Carbon Nanotubes, Molecules 24(15), 2750, 1-14. (IF2018 3.060, ISSN: 1420-3049).
  58. B. Karami, M. Janghorban, R. Dimitri, F. Tornabene (2019) - Free Vibration Analysis of Triclinic Nanobeams Based on the Differential Quadrature Method, Applied Sciences 9(17), 3517, 1-17. (IF2018 2.217, ISSN: 2076-3417).
  59. L. Leonetti, N. Fantuzzi, P. Trovalusci, F. Tornabene (2019) - Scale Effects in Orthotropic Composite Assemblies as Micropolar Continua: A Comparison between Weak and Strong-Form Finite Element Solutions, Materials 12(5), 758, 1-24. (IF2016 2.654, ISSN: 1996-1944).
  60. M. Malikan, R. Dimitri, F. Tornabene (2019) - Transient Response of Oscillated Carbon Nanotubes with an Internal and External Damping, Composites Part B Engineering 158, 198-205. (IF2015 3.850, ISSN: 1359-8368).
  61. M. Malikan, V.B. Nguyen, R. Dimitri, F. Tornabene (2019) - Dynamic Modeling of Non-Cylindrical Curved Viscoelastic Single-Walled Carbon Nanotubes Based on the Second Gradient Theory, Materials Research Express 6(7) 075041, 1-17. (IF2016 1.068, ISSN: 2053-1591).
  62. M. Mohammadi, M. Arefi, R. Dimitri, F. Tornabene (2019) - Higher-Order Thermo-Elastic Analysis of FG-CNTRC Cylindrical Vessels Surrounded by a Pasternak Foundation, Nanomaterials 9(1), 79, 1-24. (IF2018 4.034, ISSN: 2079-4991).
  63. M. Mohammadi, M. Bamdad, K. Alambeigi, R. Dimitri, F. Tornabene (2019) - Electro-Elastic Response of Cylindrical Sandwich Pressure Vessels with Porous Core and Piezoelectric Face-Sheets, Composite Structures 225(1) 111119, 1-16. (IF2015 3.853, ISSN: 0263-8223).
  64. M. Nejati, A. Ghasemi-Ghalebahman, A. Soltanimaleki, R. Dimitri, F. Tornabene (2019) - Thermal Vibration Analysis of SMA Hybrid Composite Double-Curved Sandwich Panels, Composite Structures 224(1) 111035, 1-11. (IF2015 3.853, ISSN: 0263-8223).
  65. F. Tornabene, M. Bacciocchi, N. Fantuzzi, J.N. Reddy (2019) - Multiscale Approach for Three-Phase CNT/Polymer/Fiber Laminated Nanocomposite Structures, Polymer Composites 40, E102-E126. (IF2016 2.234, ISSN: 1548-0569).
  66. F. Ebrahimi, M.R. Barati, F. Tornabene (2019) - Mechanics of Nonlocal Advanced Magneto-Electro-Viscoelastic Plates, Structural Engineering and Mechanics, In Press. (IF2018 2.804, ISSN: 1225-4568).
  67. F. Allahkarami, H. Tohidi, R. Dimitri, F. Tornabene (2020) - Dynamic Stability of Bi-Directional Functionally Graded Porous Cylindrical Shells Embedded in an Elastic Foundation, Applied Sciences 10(4), 1345, 1-30. (IF2018 2.217, ISSN: 2076-3417).
  68. M.H. Dindarloo, Li Li, R. Dimitri, F. Tornabene (2020) - Nonlocal Elasticity Response of Doubly‐Curved Nanoshells, Symmetry 12(3), 466, 1-27. (IF2018 2.143, ISSN: 2073-8994).
  69. Y. Heydarpour, P. Malekzadeh, R. Dimitri, F. Tornabene (2020) - Thermoelastic Analysis of Functionally Graded Cylindrical Panels with Piezoelectric Layers, Applied Sciences 10(4), 1397, 1-22. (IF2018 2.217, ISSN: 2076-3417).
  70. Y. Heydarpour, P. Malekzadeh, R. Dimitri, F. Tornabene (2020) - Thermoelastic Analysis of Rotating Multilayer FG-GPLRC Truncated Conical Shells Based on a Coupled TDQM-NURBS Scheme, Composite Structures 235(1) 111707, 1-19. (IF2018 4.829, ISSN: 0263-8223).
  71. A.H. Sofiyev, F. Tornabene, R. Dimitri, N. Kuruoglu (2019) - Buckling Behavior of FG-CNT Reinforced Composite Conical Shells Subjected to a Combined Loading, Nanomaterials 10(3), 419, 1-19. (IF2018 4.034, ISSN: 2079-4991).
  72. H. Arshid, M. Khorasani, Z. Soleimani-Javid, R. Dimitri, F. Tornabene (2020) - Quasi-3D Hyperbolic Shear Deformation Theory for the Free Vibration Study of Honeycomb Microplates with Graphene Nanoplatelets-Reinforced Epoxy Skins, Molecules 25(21), 5085, 1-21. (IF2018 3.060, ISSN: 1420-3049).
  73. F. Zare Jouneghani, H. Babamoradi, R. Dimitri, F. Tornabene (2020) - A Modified Couple Stress Elasticity for Non-Uniform Composite Laminated Beams Based on the Ritz Formulation, Molecules 25(6), 1404, 1-17. (IF2018 3.060, ISSN: 1420-3049).
  74. S.A.M. Ghannadpour, F. Moradi, F. Tornabene (2020) - Exact Analytical Solutions to the Problem of Relative Post-Buckling Stiffness of Thin Nonlocal Graphene Sheets, Thin-Walled Structures 151(1) 106712, 1-13. (IF2018 4.488, ISSN: 0263-8231).
  75. M. Karimi, K. Khorshidi, R. Dimitri, F. Tornabene (2020) - Size-Dependent Hydroelastic Vibration of FG Microplates Partially in Contact with a Fluid, Composite Structures 244(1) 112320, 1-14. (IF2018 4.829, ISSN: 0263-8223).
  76. F. Khosravi, S.A. Hosseini, B.A. Hamidi, R. Dimitri, F. Tornabene (2020) -  Nonlocal Torsional Vibration of Elliptical Nanorods with Different Boundary Conditions, Vibration 3(3), 189-203, 1-15. (IF2019 -, ISSN: 2571-631X).
  77. M.S. Nematollahi, H. Mohammadi, R. Dimitri, F. Tornabene (2020) - Nonlinear Vibration of Functionally Graded Graphene Nanoplatelets Polymer Nanocomposite Sandwich Beams, Applied Sciences 10(16), 5669, 1-20. (IF2018 2.217, ISSN: 2076-3417).
  78. A.R. Noroozi, P. Malekzadeh, R. Dimitri, F. Tornabene (2020) - Meshfree Radial Point Interpolation Method for the Vibration and Buckling Analysis of FG-GPLRC Perforated Plates under an In-Plane Loading, Engineering Structures 221(1) 111000, 1-20. (IF2018 3.084, ISSN: 0141-0296).
  79. H.M. Sedighi, H.M. Ouakad, R. Dimitri, F. Tornabene (2020) - Stress-Driven Nonlocal Elasticity for Instability Analysis of Fluid-Conveying C-BN Hybrid-Nanotube in Magnetic and Thermal Environment, Physica Scripta 95(6) 065204, 1-17. (IF2018 2.151, ISSN: 0031-8949).
  80. R. Selvamani, M. Mahaveer Sree Jayan, R. Dimitri, F. Tornabene, F. Ebrahimi (2020) - Nonlinear Magneto Thermo Elastic Vibration of Mass Sensor Armchair Carbon Nanotube Resting on Stiff Elastic Substrate, Curved and Layered Structures 7, 153-165. (IF2019 -, ISSN: 2353-7396).
  81. A.A. Daikh, M.S.A. Houari, B. Karami, M.A. Eltaher, R. Dimitri, F. Tornabene (2021) - Buckling Analysis of CNTRC Curved Sandwich Nanobeams in Thermal Environment, Applied Sciences 11(7), 3250, 1-20. (IF2018 2.217, ISSN: 2076-3417).
  82. S. Dastjerdi, M. Malikan, R. Dimitri, F. Tornabene (2021) - Nonlocal Elasticity Analysis of Moderately Thick Porous Functionally Graded Plates in a Hygro-Thermal Environment, Composite Structures 255(1) 112925, 1-13. (IF2018 4.829, ISSN: 0263-8223).
  83. F. Kiarasi, M. Babaei, R. Dimitri, F. Tornabene (2021) - Hygrothermal Modeling of the Buckling Behavior of Sandwich Plates with Nanocomposite Face Sheets Resting on a Pasternak Foundation, Continuum Mechanics and Thermodynamics 33, 911-932. (IF2019 2.139, ISSN: 0935-1175).
  84. F. Kiarasi, M. Babaei, K. Asemi, R. Dimitri, F. Tornabene (2021) - Three-Dimensional Buckling Analysis of Functionally Graded Saturated Porous Rectangular Plates under Combined Loading Conditions, Applied Sciences 11(21), 10434, 1-24. (IF2018 2.217, ISSN: 2076-3417).
  85. S.K. Jena, S. Chakraverty, M. Malikan, F. Tornabene (2021) - Stability Analysis of Single-Walled Carbon Nanotubes Embedded in Winkler Foundation Placed in a Thermal Environment Considering the Surface Effect using a New Refined Beam Theory, Mechanics Based Design of Structures and Machines 49(4), 581-595. (IF2018 1.986, ISSN: 1539-7734).
  86. M. Khorasani, L. Lampani, R. Dimitri, F. Tornabene (2021) - Thermomechanical Buckling Analysis of the E&P-FGM Beams Integrated by Nanocomposite Supports Immersed in a Hygrothermal Environment, Molecules 26(21), 6594, 1-20. (IF2018 3.060, ISSN: 1420-3049).
  87. S. Merdaci, H.M. Adda, B. Hakima, R. Dimitri, F. Tornabene (2021) - Higher-Order Free Vibration Analysis of Porous Functionally Graded Plates, Journal of Composites Science 5(11), 305, 1-15. (IF2018 -, ISSN: 2504-477X).
  88. M. Safarpour, A. Forooghi, R. Dimitri, F. Tornabene (2021) - Theoretical and Numerical Solution for the Bending and Frequency Response of Graphene Reinforced Nanocomposite Rectangular Plates, Applied Sciences 11(14), 6331, 1-25. (IF2018 2.217, ISSN: 2076-3417).
  89. M. Soltani, F. Atoufi, F. Mohri, R. Dimitri, F. Tornabene (2021) - Nonlocal Elasticity Theory for Lateral Stability Analysis of Tapered Thin-Walled Nanobeams with Axially Varying Materials, Thin-Walled Structures 159(1) 107268, 1-22. (IF2018 4.488, ISSN: 0263-8231).
  90. M. Soltani, F. Atoufi, F. Mohri, R. Dimitri, F. Tornabene (2021) - Nonlocal Analysis of the Flexural–Torsional Stability for FG Tapered Thin-Walled Beam-Columns, Nanomaterials 11(8), 1936, 1-28. (IF2018 4.034, ISSN: 2079-4991).
  91. S.K. Jena, S. Chakraverty, M. Malikan, F. Tornabene (2021) - Effects of Surface Energy and Surface Residual Stresses on Vibro-Thermal Analysis of Chiral, Zigzag, and Armchair Types of SWCNTs Using Refined Beam Theory, Mechanics Based Design of Structures and Machines, In Press. (IF2018 1.986, ISSN: 1539-7734).
  92. H. Sarparast, A. Ebrahimi-Mamaghani, M. Safarpour, H.M. Ouakad, R. Dimitri, F. Tornabene (2021) - Nonlocal Study of the Vibration and Stability Response of Small-scale Axially Moving Supported Beams on Viscoelastic-Pasternak foundation in a Hygro-thermal Environment, Mathematical Methods in the Applied Sciences, In Press. (IF2018 1.533, ISSN: 1099-1476).
  93. A.H. Sofiyev, Z. Mammadov, R. Dimitri, F. Tornabene (2021) - Vibration Analysis of Shear Deformable CNT-based FG Conical Shells Resting on Elastic Foundations, Mathematical Methods in the Applied Sciences, In Press. (IF2018 1.533, ISSN: 1099-1476).
  94. M. Ramezani, M. Rezaiee-Pajand, F. Tornabene (2022) - Nonlinear dynamic analysis of FG/SMA/FG sandwich cylindrical shells using HSDT and semi ANS functions, Thin-Walled Structures 171(1) 108702, 1-13. (IF2018 4.488, ISSN: 0263-8231).
  95. M. Tarek, M.S.A. Houari, B. Aicha, M. Haboussi, R. Dimitri, F. Tornabene (2022) - Bending Analysis of Functionally Graded Porous Nanocomposite Beams Based on a Non-Local Strain Gradient Theory, Mathematics and Mechanics of Solids 27(1), 66-92. (IF2019 2.139, ISSN: 0935-1175).
  96. J. Poongkothai, S. Mahesh, R. Selvamani, R. Dimitri, F. Tornabene (2022) - Multi Thermal Waves in a Thermo Diffusive Piezo Electric Functionally Graded Rod via Refined Multi-Dual Phase-Lag Model, Curved and Layered Structures, In Press. (IF2019 -, ISSN: 2353-7396).
  97. M. Ramezani, M. Rezaiee-Pajand, F. Tornabene (2022) - Linear and Nonlinear Mechanical Responses of FG-GPLRC Plates Using a Novel Strain-Based Formulation of Modified FSDT Theory, International Journal of Non-Linear Mechanics, In Press. (IF2020 2.985, ISSN: 0020-7462).

 

2.2.3  Computational Mechanics and Numerical Techniques

As far as the topic of numerical methods is concerned, the Generalized Differential Quadrature (GDQ) method has been investigated and proposed as an alternative to the classical schemes, such as the finite differences or the finite element methods. The GDQ method has been developed by Shu to improve the differential quadrature approach proposed by Bellman in the Seventies. In particular, several approaches able to evaluate the weighting coefficients required to approximate the derivatives of any order have been investigated. To this aim, the differential quadrature based on the Lagrange Polynomials (Polynomial Differential Quadrature or PDQ) and the one based on the Fourier expansion (Harmonic Differential Quadrature or HDQ) have been considered.

It is well-known that various approaches available in the literature are characterized by the use of different basis functions for the functional approximation and different grid point distributions required to define the position of the discrete points within the reference domain. For this purpose, a general approach able to evaluate the weighting coefficients for different basis functions and discrete distributions has been proposed. In addition, the expressions of the main basis functions, as well as the grid point distributions, have been presented. The class of Radial Basis Functions (RBFs) has been also used as basis functions. These functions, in fact, depend on the radial distance among the discrete nodes of the domain. All these approaches can be employed also in local form to reduce the computational cost. The Local Generalized Differential Quadrature (LGDQ) method have been developed for this purpose.

Moreover, a numerical integration procedure that employes the weighting coefficients evaluated for the differential quadrature has been developed, since many applications require the evaluation of integrals. Thus, the Generalized Integral Quadrature (GIQ) method, developed by Shu as the counterpart of the GDQ, has been considered to this aim. Even this technique can be used taking into account various basis functions and grid distributions. In order to emphasieze this aspect, different classical integration schemes have been considered, such as the trapezoidal rule or the Simpson’s method. In addition, the general approaches for the differential and integral quadrature methods can be easily extended to multi-dimensional cases. A simple and compact mathematical formulation for the evaluation of the weighting coeffiecients has been developed to this aim. Finally, the accuracy of the GDQ and GIQ methods has been proven by several numerical applications in the structural field.

Generally, practical engineering problems are complex due to geometry, material and load discontinuities. It is necessary, for solving them, to divide the whole domain using finite elements of arbitrary shape. These subdomains can be reasonably called finite elements due to the evident analogy with the FEM techniques. The necessity of studying arbitrarily shaped domains or domains characterized by mechanical and geometrical discontinuities leads to the development of a new numerical approach that divide the structure in finite elements and the strong form of the fundamental equations is solved inside each element. The fundamental aspects of this technique, named Strong Formulation Finite Element Method (SFEM), have been discussed. The starting point is the differential quadrature method. The mapping technique, used also in the finite element methods, transforms an arbitrarily shaped element into a regular element (computational element). In other words, the SFEM means a numerical procedure that divides the physical domain in finite elements and uses the differential quadrature to solve the strong form equations inside each element mapped into the computational space. This approach differs from the classical Finite Element Method (FEM) because the problem at the element level is solved using the weak (or variational) formulation. Several practical applications regarding the static and dynamic behavior of plates, membranes and plane stress and strain states are reported to study the convergence and stability characteristics and reliability of this numerical technique.

  1. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Generalized Differential Quadrature Finite Element Method for Cracked Composite Structures of Arbitrary Shape, Composite Structures 106(1), 815-834. (IF2013 3.12, ISSN: 0263-8223).
  2. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - Soft Core Plane State Structures Under Static Loads Using GDQFEM and Cell Method, CMES 94(4), 301-329. (IF2013 1.183, ISSN: 1526-1492).
  3. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - GDQFEM Numerical Simulations of Continuous Media with Cracks and Discontinuities, CMES 94(4), 331-368. (IF2013 1.183, ISSN: 1526-1492).
  4. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - On Static Analysis of Plane State Structures via GDQFEM and Cell Method, CMES 94(5), 419-456. (IF2013 1.183, ISSN: 1526-1492).
  5. N. Fantuzzi, F. Tornabene (2014) - Strong Formulation Finite Element Method for Arbitrarily Shaped Laminated Plates - I. Theoretical Analysis, Advances in Aircraft and Spacecraft Science 1(2), 124-142. (IF2013-, ISSN: 2287-528X).
  6. N. Fantuzzi, F. Tornabene (2014) - Strong Formulation Finite Element Method for Arbitrarily Shaped Laminated Plates - II. Numerical Analysis, Advances in Aircraft and Spacecraft Science 1(2), 143-173. (IF2013-, ISSN: 2287-528X).
  7. N. Fantuzzi, F. Tornabene, E. Viola (2014) - Generalized Differential Quadrature Finite Element Method for Vibration Analysis of Arbitrarily Shaped Membranes, International Journal of Mechanical Sciences 79, 216-251. (IF2014 2.034, ISSN: 0020-7403).
  8. N. Fantuzzi, F. Tornabene, E. Viola, A.J.M. Ferreira (2014) - A Strong Formulation Finite Element Method (SFEM) Based on RBF and GDQ Techniques for the Static and Dynamic Analyses of Laminated Plates of Arbitrary Shape, Meccanica 49, 2503-2542. (IF2014 1.949, ISSN: 0025-6455).
  9. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - The Strong Formulation Finite Element Method: Stability and Accuracy, Fracture and Structural Integrity 29(1), 251-265. (IF2014 -, ISSN: 1971-8993).
  10. N. Fantuzzi, M. Bacciocchi, F. Tornabene, E. Viola, A.J.M. Ferreira (2015) - Radial Basis Functions Based on Differential Quadrature Method for the Free Vibration Analysis of Laminated Composite Arbitrarily Shaped Plates, Composites Part B Engineering 78(1), 65-78. (IF2015 3.850, ISSN: 1359-8368).
  11. F. Tornabene, N. Fantuzzi, F. Ubertini, E. Viola (2015) - Strong Formulation Finite Element Method Based on Differential Quadrature: A Survey, Applied Mechanics Reviews 67(2), 020801-1-55. (IF2013 2, ISSN: 0003-6900).
  12. R. Dimitri, N. Fantuzzi, F. Tornabene, G. Zavarise (2016) - Innovative Numerical Methods Based on SFEM and IGA for Computing Stress Concentrations in Isotropic Plates with Discontinuities, International Journal of Mechanical Sciences 118, 166-187. (IF2015 2.481, ISSN: 0020-7403).
  13. N. Fantuzzi, F. Tornabene (2016) - Strong Formulation Isogeometric Analysis (SFIGA) for Laminated Composite Arbitrarily Shaped Plates, Composites Part B Engineering 96(1), 173-203. (IF2015 3.850, ISSN: 1359-8368).
  14. N. Fantuzzi, G. Della Puppa, F. Tornabene, M. Trautz (2017) - Strong Formulation Isogeometric Analysis for the Vibration of Thin Membranes of General Shape, International Journal of Mechanical Sciences 120, 322-340. (IF2015 2.481, ISSN: 0020-7403).
  15. N. Fantuzzi, F. Tornabene, M. Bacciocchi, A.M.A. Neves, A.J.M. Ferreira (2017) - Stability and Accuracy of Three Fourier Expansion-Based Strong Form Finite Elements for the Free Vibration Analysis of Laminated Composite Plates, International Journal for Numerical Methods in Engineering 111(4), 354-382. (IF2015 2.1, ISSN: 1097-0207).
  16. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Finite Elements Based on Strong and Weak Formulations for Structural Mechanics: Stability, Accuracy and Reliability, International Journal of Engineering & Applied Sciences 9(2), 1-21. (IF2015 -, ISSN: 1309-0267).
  17. E. Viola, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Numerical Investigation of Composite Materials with Inclusions and Discontinuities, Key Engineering Materials 747(1), 69-76. (IF2015 -, ISSN: 1662-9795).
  18. N. Fantuzzi, F. Tornabene, M. Bacciocchi, A.J.M. Ferreira (2018) - On the Convergence of Laminated Composite Plates of Arbitrary Shape through Finite Element Models, Journal of Composites Science 2(1), 16, 1-50. (IF2018 -, ISSN: 2504-477X).
  19. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - Strong and Weak Formulations Based on Differential and Integral Quadrature Methods for the Free Vibration Analysis of Composite Plates and Shells: Convergence and Accuracy, Engineering Analysis with Boundary Elements 92, 3-37. (IF2016 1.721, ISSN: 0955-7997).

 

2.2.4  Other research topics (Fracture Mechanics, Experimental Mechanics)

Some additional topics have been also investigated, such as fracture mechanics and experimental mechanics.

  1. A. Piva, E. Viola, F. Tornabene (2005) - Crack Propagation in an Orthotropic Medium with Coupled Elastodynamic Properties, Mechanics Research Communications 32(2), 153-159. (IF2005 0.586, ISSN: 0093-6413).
  2. A. Piva, F. Tornabene, E. Viola (2006) - Crack Propagation in a Four-parameter Piezoelectric Medium, European Journal of Mechanics - A/Solids 25(2), 230-249. (IF2006 0.897, ISSN: 0997-7538).
  3. A. Piva, E. Viola, F. Tornabene (2006) - Elastodynamic Degenerate States for a Crack in an Orthotropic Medium, Meccanica 41(4), 363-373. (IF2006 0.4, ISSN: 0025-6455).
  4. A. Piva, F. Tornabene, E. Viola (2007) - Subsonic Griffith Crack Propagation in Piezoelectric Media, European Journal of Mechanics - A/Solids 26(3), 442-459. (IF2007 1.049, ISSN: 0997-7538).
  5. E. Viola, C. Boldrini, F. Tornabene (2008) - Non-singular term effect on the Fracture Quantities of a Crack in a Piezoelectric Medium, Engineering Fracture Mechanics 75(15), 4542-4567. (IF2008 1.713, ISSN: 0013-7944).
  6. Y. Li, N. Fantuzzi, F. Tornabene (2013) - On Mixed Mode Crack Initiation and Direction in Shafts: Strain Energy Density Factor and Maximum Tangential Stress Criteria, Engineering Fracture Mechanics 109, 273-289. (IF2013 1.662, ISSN: 0013-7944).
  7. M. Degidi, G. Caligiana, D. Francia, A. Liverani, G. Olmi, F. Tornabene (2016) - Strain Gauge Analysis of Implant-Supported, Screw-Retained Metal Frameworks: Comparison Between Different Manufacturing Technologies, Proceedings of the Institution of Mechanical Engineers Part H Journal of Engineering in Medicine 230(9), 840-846. (IF2015 0.996, ISSN: 0954-4119).
  8. N. Fantuzzi, R. Dimitri, F. Tornabene (2016) - A SFEM-Based Evaluation of Mode-I Stress Intensity Factor in Composite Structures, Composite Structures 145(1), 162-185. (IF2015 3.853, ISSN: 0263-8223).
  9. R. Dimitri, N. Fantuzzi, Y. Li, F. Tornabene (2017) - Numerical Computation of the Crack Development and SIF in Composite Materials with XFEM and SFEM, Composite Structures 160(1), 468-490. (IF2015 3.853, ISSN: 0263-8223).
  10. R. Dimitri, Y. Li, N. Fantuzzi, F. Tornabene (2017) - An Innovative Modeling of the Crack Path and Stress Intensity Factor for Arbitrary Shaft Configurations, Advanced Materials and Technologies 5, 20-35. (IF2015 -, ISSN: 2414-4606).
  11. Y. Li, S. Cao, R. Dimitri, N. Fantuzzi, F. Tornabene (2017) - Analytical and Numerical Investigation of the Stiffness Matrix for Edge-Cracked Circular Shafts, Fatigue & Fracture of Engineering Materials & Structures 40(3), 391-411. (IF2015 1.838, ISSN: 1460-2695).
  12. R. Dimitri, F. Tornabene (2018) - Numerical Study of the Mixed-Mode Delamination of Composite Specimens, Journal of Composites Science 2(2), 30, 1-33. (IF2018 -, ISSN: 2504-477X).
  13. R. Dimitri, F. Tornabene, G. Zavarise (2018) - Analytical and Numerical Modeling of the Mixed-Mode Delamination Process for Composite Moment-Loaded Double Cantilever Beams, Composite Structures 187(3), 535-553. (IF2015 3.853, ISSN: 0263-8223).
  14. R. Jiwari, S. Tomasiello, F. Tornabene (2018) - A Numerical Algorithm for Computational Modelling of Coupled Advection-Diffusion-Reaction Systems, Engineering Computations 35(3), 1383-1401. (IF2016 1.010, ISSN: 0264-4401).
  15. R. Dimitri, F. Tornabene, J.N. Reddy (2020) - Numerical Study of the Mixed-Mode Behavior of Generally-Shaped Composite Interfaces, Composite Structures 237(1) 111935, 1-18. (IF2018 4.829, ISSN: 0263-8223).
  16. R. Dimitri, M. Rinaldi, M. Trullo, F. Tornabene, C. Fidelibus (2021) - FEM/XFEM Modeling of the 3D Fracturing Process in Transversely Isotropic Geomaterials, Composite Structures 276(1) 114502, 1-18. (IF2018 4.829, ISSN: 0263-8223).

 

2.3  List of Publications

 

2.3.1  Papers published in International Journals

2005

  1. A. Piva, E. Viola, F. Tornabene (2005) - Crack Propagation in an Orthotropic Medium with Coupled Elastodynamic Properties, Mechanics Research Communications 32(2), 153-159. (IF2005 0.586, ISSN: 0093-6413).
  2. E. Viola, F. Tornabene (2005) - Vibration Analysis of Damaged Circular Arches with Varying Cross-section, Structural Integrity and Durability (SID-SDHM) 1(2), 155-169. (IF2005 -, ISSN: 1930-2983).

2006

  1. A. Piva, F. Tornabene, E. Viola (2006) - Crack Propagation in a Four-parameter Piezoelectric Medium, European Journal of Mechanics - A/Solids 25(2), 230-249. (IF2006 0.897, ISSN: 0997-7538).
  2. A. Piva, E. Viola, F. Tornabene (2006) - Elastodynamic Degenerate States for a Crack in an Orthotropic Medium, Meccanica 41(4), 363-373. (IF2006 0.4, ISSN: 0025-6455).
  3. E. Viola, F. Tornabene (2006) - Vibration Analysis of Conical Shell Structures Using GDQ Method, Far East Journal of Applied Mathematics 25(1), 23-39. (IF2006 -, ISSN: 0972-0960).

2007

  1. A. Piva, F. Tornabene, E. Viola (2007) - Subsonic Griffith Crack Propagation in Piezoelectric Media, European Journal of Mechanics - A/Solids 26(3), 442-459. (IF2007 1.049, ISSN: 0997-7538).
  2. F. Tornabene, E. Viola (2007) - Vibration Analysis of Spherical Structural Elements Using the GDQ Method, Computers and Mathematics with Applications 53(10), 1538-1560. (IF2007 0.72, ISSN: 0898-1221).
  3. E. Viola, M. Dilena, F. Tornabene (2007) - Analytical and Numerical Results for Vibration Analysis of Multi-Stepped and Multi-Damaged Circular Arches, Journal of Sound and Vibration 299(1-2), 143-163. (IF2007 1.024, ISSN: 0022-460X).
  4. E. Viola, L. Panzacchi, F. Tornabene (2007) - General Analysis and Application to Redundant Arches under Static Loading, Construction and Building Materials 21(5), 1129-1143. (IF2007 0.841, ISSN: 0950-0618).

2008

  1. A. Marzani, F. Tornabene, E. Viola (2008) - Nonconservative Stability Problems via Generalized Differential Quadrature Method, Journal of Sound and Vibration 315(1-2), 176-196. (IF2008 1.364, ISSN: 0022-460X).
  2. F. Tornabene, E. Viola (2008) - 2-D Solution for Free Vibrations of Parabolic Shells Using Generalized Differential Quadrature Method, European Journal of Mechanics - A/Solids 27(6), 1001-1025. (IF2008 1.674, ISSN: 0997-7538).
  3. E. Viola, C. Boldrini, F. Tornabene (2008) - Non-singular Term effect on the Fracture Quantities of a Crack in a Piezoelectric Medium, Engineering Fracture Mechanics 75(15), 4542-4567. (IF2008 1.713, ISSN: 0013-7944).

2009

  1. F. Tornabene (2009) - Free Vibration Analysis of Functionally Graded Conical, Cylindrical Shell and Annular Plate Structures with a Four-parameter Power-Law Distribution, Computer Methods in Applied Mechanics and Engineering 198(37-40), 2911-2935. (IF2009 1.806, ISSN: 0045-7825).
  2. F. Tornabene, E. Viola (2009) - Free Vibration Analysis of Functionally Graded Panels and Shells of Revolution, Meccanica 44(3), 255-281. (IF2009 0.892, ISSN: 0025-6455).
  3. F. Tornabene, E. Viola (2009) - Free Vibrations of Four-Parameter Functionally Graded Parabolic Panels and Shells of Revolution, European Journal of Mechanics - A/Solids 28(5), 991-1013. (IF2009 1.815, ISSN: 0997-7538).
  4. F. Tornabene, E. Viola, D.J. Inman (2009) - 2-D Differential Quadrature Solution for Vibration Analysis of Functionally Graded Conical, Cylindrical Shell and Annular Plate Structures, Journal of Sound and Vibration 328(3), 259-290. (IF2009 1.414, ISSN: 0022-460X).
  5. E. Viola, F. Tornabene (2009) - Free Vibrations of Three Parameter Functionally Graded Parabolic Panels of Revolution, Mechanics Research Communications 36(5), 587-594. (IF2009 1.085, ISSN: 0093-6413).

2010

  1. F. Tornabene, A. Marzani, E. Viola, I. Elishakoff (2010) - Critical Flow Speeds of Pipes Conveying Fluid by the Generalized Differential Quadrature Method, Advances in Theoretical and Applied Mechanics 3(3), 121-138. (IF2010 -, ISSN: 1313-6550).

2011

  1. F. Tornabene (2011) - Free Vibrations of Laminated Composite Doubly-Curved Shells and Panels of Revolution via the GDQ Method, Computer Methods in Applied Mechanics and Engineering 200(9-12), 931-952. (IF2011 2.651, ISSN: 0045-7825).
  2. F. Tornabene (2011) - 2-D GDQ Solution for Free Vibrations of Anisotropic Doubly-Curved Shells and Panels of Revolution, Composite Structures 93(7), 1854-1876. (IF2011 2.24, ISSN: 0263-8223).
  3. F. Tornabene (2011) - Free Vibrations of Anisotropic Doubly-Curved Shells and Panels of Revolution with a Free-Form Meridian Resting on Winkler-Pasternak Elastic Foundations, Composite Structures 94(1), 186-206. (IF2011 2.24, ISSN: 0263-8223).
  4. F. Tornabene, A. Liverani, G. Caligiana (2011) - FGM and Laminated Doubly-Curved Shells and Panels of Revolution with a Free-Form Meridian: a 2-D GDQ Solution for Free Vibrations, International Journal of Mechanical Sciences 53(6), 446-470. (IF2011 1.231, ISSN: 0020-7403).

2012

  1. F. Tornabene, A. Liverani, G. Caligiana (2012) - Laminated Composite Rectangular and Annular Plates: A GDQ Solution for Static Analysis with a Posteriori Shear and Normal Stress Recovery, Composites Part B Engineering 43(4), 1847-1872. (IF2012 2.143, ISSN: 1359-8368).
  2. F. Tornabene, A. Liverani, G. Caligiana (2012) - Static Analysis of Laminated Composite Curved Shells and Panels of Revolution with a Posteriori Shear and Normal Stress Recovery Using Generalized Differential Quadrature Method, International Journal of Mechanical Sciences 61(1), 71-87. (IF2012 1.613, ISSN: 0020-7403).
  3. F. Tornabene, A. Liverani, G. Caligiana (2012) - General Anisotropic Doubly-Curved Shell Theory: a Differential Quadrature Solution for Free Vibrations of Shells and Panels of Revolution with a Free-Form Meridian, Journal of Sound and Vibration 331(22), 4848-4869. (IF2012 1.613, ISSN: 0022-460X).

2013

  1. A.J.M. Ferreira, E. Viola, F. Tornabene, N. Fantuzzi, A.M. Zenkour (2013) - Analysis of Sandwich Plates by Generalized Differential Quadrature Method, Mathematical Problems in Engineering Vol. 2013, Article ID 964367, 1-22, http://dx.doi.org/10.1155/2013/964367. (IF2013 1.082, ISSN: 1024-123X).
  2. Y. Li, N. Fantuzzi, F. Tornabene (2013) - On Mixed Mode Crack Initiation and Direction in Shafts: Strain Energy Density Factor and Maximum Tangential Stress Criteria, Engineering Fracture Mechanics 109, 273-289. (IF2013 1.662, ISSN: 0013-7944).
  3. F. Tornabene, A. Ceruti (2013) - Free-Form Laminated Doubly-Curved Shells and Panels of Revolution Resting on Winkler-Pasternak Elastic Foundations: A 2-D GDQ Solution for Static and Free Vibration Analysis, World Journal of Mechanics 3(1), 1-25. (IF2013 -, ISSN: 2160-049X).
  4. F. Tornabene, A. Ceruti (2013) - Mixed Static and Dynamic Optimization of Four-Parameter Functionally Graded Completely Doubly-Curved and Degenerate Shells and Panels Using GDQ Method, Mathematical Problems in Engineering Vol. 2013, Article ID 867079, 1-33, http://dx.doi.org/10.1155/2013/867079. (IF2013 1.082, ISSN: 1024-123X).
  5. F. Tornabene, N. Fantuzzi, E. Viola, A.J.M. Ferreira (2013) - Radial Basis Function Method Applied to Doubly-Curved Laminated Composite Shells and Panels with a General Higher-Order Equivalent Single Layer Theory, Composites Part B Engineering 55, 642-659. (IF2013 2.602, ISSN: 1359-8368).
  6. F. Tornabene, J.N. Reddy (2013) - FGM and Laminated Doubly-Curved and Degenerate Shells Resting on Nonlinear Elastic Foundations: a GDQ Solution for Static Analysis with a Posteriori Stress and Strain Recovery, Journal of Indian Institute of Science 93(4), 635-688. (IF2013 -, ISSN: 0970-4140).
  7. F. Tornabene, E. Viola (2013) - Static Analysis of Functionally Graded Doubly-Curved Shells and Panels of Revolution, Meccanica 48(4), 901-930. (IF2013 1.815, ISSN: 0025-6455).
  8. F. Tornabene, E. Viola, N. Fantuzzi (2013) - General Higher-order Equivalent Single Layer Theory for Free Vibrations of Doubly-Curved Laminated Composite Shells and Panels, Composite Structures 104(1), 94-117. (IF2013 3.12, ISSN: 0263-8223).
  9. E. Viola, F. Tornabene, N. Fantuzzi (2013) - General Higher-Order Shear Deformation Theories for the Free Vibration Analysis of Completely Doubly-Curved Laminated Shells and Panels, Composite Structures 95(1), 639-666. (IF2013 3.12, ISSN: 0263-8223).
  10. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Static Analysis of Completely Doubly-Curved Laminated Shells and Panels Using General Higher-Order Shear Deformation Theories, Composite Structures 101(1), 59-93. (IF2013 3.12, ISSN: 0263-8223).
  11. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Generalized Differential Quadrature Finite Element Method for Cracked Composite Structures of Arbitrary Shape, Composite Structures 106(1), 815-834. (IF2013 3.12, ISSN: 0263-8223).
  12. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - Soft Core Plane State Structures Under Static Loads Using GDQFEM and Cell Method, CMES 94(4), 301-329. (IF2013 1.183, ISSN: 1526-1492).
  13. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - GDQFEM Numerical Simulations of Continuous Media with Cracks and Discontinuities, CMES 94(4), 331-368. (IF2013 1.183, ISSN: 1526-1492).
  14. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - On Static Analysis of Plane State Structures via GDQFEM and Cell Method, CMES 94(5), 419-456. (IF2013 1.183, ISSN: 1526-1492).

2014

  1. N. Fantuzzi, F. Tornabene (2014) - Strong Formulation Finite Element Method for Arbitrarily Shaped Laminated Plates - I. Theoretical Analysis, Advances in Aircraft and Spacecraft Science 1(2), 124-142. (IF2013-, ISSN: 2287-528X).
  2. N. Fantuzzi, F. Tornabene (2014) - Strong Formulation Finite Element Method for Arbitrarily Shaped Laminated Plates - II. Numerical Analysis, Advances in Aircraft and Spacecraft Science 1(2), 143-173. (IF2013 -, ISSN: 2287-528X).
  3. N. Fantuzzi, F. Tornabene, E. Viola (2014) - Generalized Differential Quadrature Finite Element Method for Vibration Analysis of Arbitrarily Shaped Membranes, International Journal of Mechanical Sciences 79, 216-251. (IF2014 2.034, ISSN: 0020-7403).
  4. N. Fantuzzi, F. Tornabene, E. Viola, A.J.M. Ferreira (2014) - A Strong Formulation Finite Element Method (SFEM) Based on RBF and GDQ Techniques for the Static and Dynamic Analyses of Laminated Plates of Arbitrary Shape, Meccanica 49, 2503-2542. (IF2014 1.949, ISSN: 0025-6455).
  5. A.J.M. Ferreira, E. Carrera, M. Cinefra, E. Viola, F. Tornabene, N. Fantuzzi, A.M. Zenkour (2014) - Analysis of Thick Isotropic and Cross-Ply Laminated Plates by Generalized Differential Quadrature Method and a Unified Formulation, Composites Part B Engineering 58(1), 544-552. (IF2014 2.983, ISSN: 1359-8368).
  6. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - The Local GDQ Method Applied to General Higher-Order Theories of Doubly-Curved Laminated Composite Shells and Panels: the Free Vibration Analysis, Composite Structures 116(1), 637-660. (IF2014 3.318, ISSN: 0263-8223).
  7. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - Free Vibrations of Free-Form Doubly-Curved Shells Made of Functionally Graded Materials Using Higher-Order Equivalent Single Layer Theories, Composites Part B Engineering 67(1), 490-509. (IF2014 2.983, ISSN: 1359-8368).
  8. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - The Strong Formulation Finite Element Method: Stability and Accuracy, Fracture and Structural Integrity 29(1), 251-265. (IF2013 -, ISSN: 1971-8993).
  9. F. Tornabene, N. Fantuzzi, E. Viola, E. Carrera (2014) - Static Analysis of Doubly-Curved Anisotropic Shells and Panels using CUF Approach, Differential Geometry and Differential Quadrature Method, Composite Structures 107, 675-697. (IF2014 3.318, ISSN: 0263-8223).
  10. F. Tornabene, N. Fantuzzi, E. Viola, J.N. Reddy (2014) - Winkler-Pasternak Foundation Effect on the Static and Dynamic Analyses of Laminated Doubly-Curved and Degenerate Shells and Panels, Composites Part B Engineering 57(1), 269-296. (IF2014 2.983, ISSN: 1359-8368).
  11. E. Viola, L. Rossetti, N. Fantuzzi, F. Tornabene (2014) - Static Analysis of Functionally Graded Conical Shells and Panels Using the Generalized Unconstrained Third Order Theory Coupled with the Stress Recovery, Composite Structures 112(1), 44-65. (IF2014 3.318, ISSN: 0263-8223).

2015

  1. S. Brischetto, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2015) - Refined 2D and Exact 3D Shell Models for the Free Vibration Analysis of Single- and Double-Walled Carbon Nanotubes, Technologies 3(1), 259-284. (IF2015 -, ISSN: 2227-7080).
  2. G. Carpentieri, F. Tornabene, L. Ascione, F. Fraternali (2015) - An Accurate One-Dimensional Theory for the Dynamics of Laminated Composite Curved Beams, Journal of Sound and Vibration 336(1), 96-105. (IF2015 2.107, ISSN: 0022-460X).
  3. R. Dimitri, F. Tornabene (2015) - A Parametric Investigation of the Seismic Capacity for Masonry Arches and Portals of Different Shapes, Engineering Failure Analysis 52(1), 1-34. (IF2013 1.130, ISSN: 1350-6307).
  4. N. Fantuzzi, M. Bacciocchi, F. Tornabene, E. Viola, A.J.M. Ferreira (2015) - Radial Basis Functions Based on Differential Quadrature Method for the Free Vibration Analysis of Laminated Composite Arbitrarily Shaped Plates, Composites Part B Engineering 78(1), 65-78. (IF2015 3.850, ISSN: 1359-8368).
  5. F. Tornabene, S. Brischetto, N. Fantuzzi, E. Viola (2015) - Numerical and Exact Models for Free Vibration Analysis of Cylindrical and Spherical Shell Panels, Composites Part B Engineering 81(1), 231-250. (IF2015 3.850, ISSN: 1359-8368).
  6. F. Tornabene, N. Fantuzzi, M. Bacciocchi, R. Dimitri (2015) - Dynamic Analysis of Thick and Thin Elliptic Shell Structures Made of Laminated Composite Materials, Composite Structures 133(1), 278-299. (IF2015 3.853, ISSN: 0263-8223).
  7. F. Tornabene, N. Fantuzzi, M. Bacciocchi, R. Dimitri (2015) - Free Vibrations of Composite Oval and Elliptic Cylinders by the Generalized Differential Quadrature Method, Thin-Walled Structures 97(1), 114-129. (IF2015 2.063, ISSN: 0263-8231).
  8. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Accurate Inter-Laminar Recovery for Plates and Doubly-Curved Shells with Variable Radii of Curvature Using Layer-Wise Theories, Composite Structures 124(1), 368-393. (IF2015 3.853, ISSN: 0263-8223).
  9. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - A New Approach for Treating Concentrated Loads in Doubly-Curved Composite Deep Shells with Variable Radii of Curvature, Composite Structures 131(1), 433-452. (IF2015 3.853, ISSN: 0263-8223).
  10. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Higher-Order Theories for the Free Vibration of Doubly-Curved Laminated Panels with Curvilinear Reinforcing Fibers by Means of a Local Version of the GDQ Method, Composites Part B Engineering 81(1), 196-230. (IF2015 3.850, ISSN: 1359-8368).
  11. F. Tornabene, N. Fantuzzi, F. Ubertini, E. Viola (2015) - Strong Formulation Finite Element Method Based on Differential Quadrature: a Survey, Applied Mechanics Reviews 67(2), 020801-1-55. (IF2013 2, ISSN: 0003-6900).
  12. F. Tornabene, N. Fantuzzi, E. Viola, R.C. Batra (2015) - Stress and Strain Recovery for Functionally Graded Free-Form and Doubly-Curved Sandwich Shells Using Higher-Order Equivalent Single Layer Theory, Composite Structures 119(1), 67-89. (IF2015 3.853, ISSN: 0263-8223).
  13. E. Viola, F. Tornabene, N. Fantuzzi (2015) - Stress and Strain Recovery of Laminated Composite Doubly-Curved Shells and Panels Using Higher-Order Formulations, Key Engineering Materials 624, 205-213. (IF2015 -, ISSN: 1662-9795).

2016

  1. M. Bacciocchi, M. Eisenberger, N. Fantuzzi, F. Tornabene, E. Viola (2016) - Vibration Analysis of Variable Thickness Plates and Shells by the Generalized Differential Quadrature Method, Composite Structures 156(1), 218-237. (IF2015 3.853, ISSN: 0263-8223).
  2. S. Brischetto, F. Tornabene, N. Fantuzzi, E. Viola (2016) - 3D Exact and 2D Generalized Differential Quadrature Models for Free Vibration Analysis of Functionally Graded Plates and Cylinders, Meccanica 51(9), 2059-2098. (IF2016 2.196, ISSN: 0025-6455).
  3. M. Degidi, G. Caligiana, D. Francia, A. Liverani, G. Olmi, F. Tornabene (2016) - Strain Gauge Analysis of Implant-Supported, Screw-Retained Metal Frameworks: Comparison Between Different Manufacturing Technologies, Proceedings of the Institution of Mechanical Engineers Part H Journal of Engineering in Medicine 230(9), 840-846. (IF2015 0.996, ISSN: 0954-4119).
  4. R. Dimitri, N. Fantuzzi, F. Tornabene, G. Zavarise (2016) - Innovative Numerical Methods Based on SFEM and IGA for Computing Stress Concentrations in Isotropic Plates with Discontinuities, International Journal of Mechanical Sciences 118, 166-187. (IF2015 2.481, ISSN: 0020-7403).
  5. N. Fantuzzi, S. Brischetto, F. Tornabene, E. Viola (2016) - 2D and 3D Shell Models for the Free Vibration Investigation of Functionally Graded Cylindrical and Spherical Panels, Composite Structures 154(1), 573-590. (IF2015 3.853, ISSN: 0263-8223).
  6. N. Fantuzzi, R. Dimitri, F. Tornabene (2016) - A SFEM-Based Evaluation of Mode-I Stress Intensity Factor in Composite Structures, Composite Structures 145(1), 162-185. (IF2015 3.853, ISSN: 0263-8223).
  7. N. Fantuzzi, F. Tornabene (2016) - Strong Formulation Isogeometric Analysis (SFIGA) for Laminated Composite Arbitrarily Shaped Plates, Composites Part B Engineering 96(1), 173-203. (IF2015 3.850, ISSN: 1359-8368).
  8. N. Fantuzzi, F. Tornabene, E. Viola (2016) - Four-Parameter Functionally Graded Cracked Plates of Arbitrary Shape: a GDQFEM Solution for Free Vibrations, Mechanics of Advanced Materials and Structures 23(1), 89-107. (IF2015 1, ISSN: 1537-6494).
  9. S. Kamarian, M. Salim, R. Dimitri, F. Tornabene (2016) - Free Vibration Analysis of Conical Shells Reinforced with Agglomerated Carbon Nanotubes, International Journal of Mechanical Sciences 108-109(1), 157-165. (IF2015 2.481, ISSN: 0020-7403).
  10. R. Kandasamy, R. Dimitri, F. Tornabene (2016) - Numerical Study on the Free Vibration and Thermal Buckling Behaviour of Moderately Thick Functionally Graded Structures in Thermal Environments, Composite Structures 157(1), 207-221. (IF2015 3.853, ISSN: 0263-8223).
  11. F. Tornabene (2016) - General Higher Order Layer-Wise Theory for Free Vibrations of Doubly-Curved Laminated Composite Shells and Panels, Mechanics of Advanced Materials and Structures 23(9), 1046-1067. (IF2015 1, ISSN: 1537-6494).
  12. F. Tornabene, S. Brischetto, N. Fantuzzi, M. Bacciocchi (2016) - Boundary Conditions in 2D Numerical and 3D Exact Models for Cylindrical Bending Analysis of Functionally Graded Structures, Shock and Vibration 2016, Article ID Article ID 2373862, 1-17. (IF2016 0.880, ISSN: 1070-9622).
  13. F. Tornabene, R. Dimitri, E. Viola (2016) - Transient Dynamic Response of Generally-Shaped Arches Based on a GDQ-Time-Stepping Method, International Journal of Mechanical Sciences 114, 274-314. (IF2015 2.481, ISSN: 0020-7403).
  14. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - Higher-Order Structural Theories for the Static Analysis of Doubly-Curved Laminated Composite Panels Reinforced by Curvilinear Fibers, Thin-Walled Structures 102(1), 222-245. (IF2015 2.063, ISSN: 0263-8231).
  15. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - The Local GDQ Method for the Natural Frequencies of Doubly-Curved Shells with Variable Thickness: A General Formulation, Composites Part B Engineering 92(1), 265-289. (IF2015 3.850, ISSN: 1359-8368).
  16. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - On the Mechanics of Laminated Doubly-Curved Shells Subjected to Point and Line Loads, International Journal of Engineering Science 109, 115-164. (IF2015 3.165, ISSN: 0020-7225).
  17. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - The GDQ Method for the Free Vibration Analysis of Arbitrarily Shaped Laminated Composite Shells Using a NURBS-Based Isogeometric Approach, Composite Structures 154(1), 190-218. (IF2015 3.853, ISSN: 0263-8223).
  18. F. Tornabene, N. Fantuzzi, M. Bacciocchi, A.M.A. Neves, A.J.M. Ferreira (2016) - MLSDQ Based on RBFs for the Free Vibrations of Laminated Composite Doubly-Curved Shells, Composites Part B: Engineering 99(1), 30-47. (IF2015 3.850, ISSN: 1359-8368).
  19. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Effect of Agglomeration on the Natural Frequencies of Functionally Graded Carbon Nanotube-Reinforced Laminated Composite Doubly-Curved Shells, Composites Part B Engineering 89(1), 187-218. (IF2015 3.850, ISSN: 1359-8368).
  20. F. Tornabene, N. Fantuzzi, E. Viola (2016) - Inter-Laminar Stress Recovery Procedure for Doubly-Curved, Singly-Curved, Revolution Shells with Variable Radii of Curvature and Plates Using Generalized Higher-Order Theories and the Local GDQ Method, Mechanics of Advanced Materials and Structures 23(9), 1019-1045. (IF2015 1, ISSN: 1537-6494).
  21. E. Viola, L. Rossetti, N. Fantuzzi, F. Tornabene (2016) - Generalized Stress-Strain Recovery Formulation Applied to Functionally Graded Spherical Shells and Panels Under Static Loading, Composite Structures 156(1), 145-164. (IF2015 3.853, ISSN: 0263-8223).

2017

  1. D. Banić, M. Bacciocchi, F. Tornabene, A.J.M. Ferreira (2017) - Influence of Winkler-Pasternak Foundation on the Vibrational Behavior of Plates and Shells Reinforced by Agglomerated Carbon Nanotubes, Applied Sciences 7(12), 1228, 1-55. (IF2017 1.689, ISSN: 2076-3417).
  2. S. Brischetto, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Interpretation of Boundary Conditions in the Analytical and Numerical Shell Solutions for Mode Analysis of Multilayered Structures, International Journal of Mechanical Sciences 122(1), 18-28. (IF2015 2.481, ISSN: 0020-7403).
  3. R. Dimitri, N. Fantuzzi, Y. Li, F. Tornabene (2017) - Numerical Computation of the Crack Development and SIF in Composite Materials with XFEM and SFEM, Composite Structures 160(1), 468-490. (IF2015 3.853, ISSN: 0263-8223).
  4. R. Dimitri, Y. Li, N. Fantuzzi, F. Tornabene (2017) - An Innovative Modeling of the Crack Path and Stress Intensity Factor for Arbitrary Shaft Configurations, Advanced Materials and Technologies 5, 20-35. (IF2017 -, ISSN: 2414-4606).
  5. N. Fantuzzi, G. Della Puppa, F. Tornabene, M. Trautz (2017) - Strong Formulation Isogeometric Analysis for the Vibration of Thin Membranes of General Shape, International Journal of Mechanical Sciences 120, 322-340. (IF2015 2.481, ISSN: 0020-7403).
  6. N. Fantuzzi, F. Tornabene, M. Bacciocchi, A.M.A. Neves, A.J.M. Ferreira (2017) - Stability and Accuracy of Three Fourier Expansion-Based Strong Form Finite Elements for the Free Vibration Analysis of Laminated Composite Plates, International Journal for Numerical Methods in Engineering 111(4), 354-382. (IF2015 2.1, ISSN: 1097-0207).
  7. N. Fantuzzi, F. Tornabene, M. Bacciocchi, R. Dimitri (2017) - Free Vibration Analysis of Arbitrarily Shaped Functionally Graded Carbon Nanotube-Reinforced Plates, Composites Part B Engineering 115(1), 384-408. (IF2015 3.850, ISSN: 1359-8368).
  8. A.L. Kalamkarov, F. Tornabene, P.M.C.L. Pacheco, M.A. Savi, G.C. Saha (2017) - Geometrically Non-Linear Elastic Model for a Thin Composite Layer with Wavy Surfaces, ZAMM - Journal of Applied Mathematics and Mechanics 97(11), 1381-1392. (IF2016 1.332, ISSN: 0044-2267).
  9. Y. Li, S. Cao, R. Dimitri, N. Fantuzzi, F. Tornabene (2017) - Analytical and Numerical Investigation of the Stiffness Matrix for Edge-Cracked Circular Shafts, Fatigue & Fracture of Engineering Materials & Structures 40(3), 391-411. (IF2015 1.838, ISSN: 1460-2695).
  10. M. Nejati, A. Asanjarani, R. Dimitri, F. Tornabene (2017) - Static and Free Vibration Analysis of Functionally Graded Conical Shells Reinforced by Carbon Nanotubes, International Journal of Mechanical Sciences 130(1), 383-398. (IF2015 2.481, ISSN: 0020-7403).
  11. M. Nejati, R. Dimitri, F. Tornabene, M. Hossein Yas (2017) - Thermal Buckling of Nanocomposite Stiffened Cylindrical Shells Reinforced by Functionally Graded Wavy Carbon Nano-Tubes with Temperature-Dependent Properties, Applied Sciences 7(12), 1223, 1-24. (IF2017 1.689, ISSN: 2076-3417).
  12. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Finite Elements Based on Strong and Weak Formulations for Structural Mechanics: Stability, Accuracy and Reliability, International Journal of Engineering & Applied Sciences 9(2), 1-21. (IF2015 -, ISSN: 1309-0267).
  13. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Linear Static Response of Nanocomposite Plates and Shells Reinforced by Agglomerated Carbon Nanotubes, Composites Part B Engineering 115(1), 449-476. (IF2015 3.850, ISSN: 1359-8368).
  14. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - A New Doubly-Curved Shell Element for the Free Vibrations of Arbitrarily Shaped Laminated Structures Based on Weak Formulation IsoGeometric Analysis, Composite Structures 171(1), 429-461. (IF2015 3.853, ISSN: 0263-8223).
  15. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Linear Static Behavior of Damaged Laminated Composite Plates and Shells, Materials 10(7), 811, 1-52. (IF2016 2.654, ISSN: 1996-1944).
  16. F. Tornabene, N. Fantuzzi, M. Bacciocchi, J.N. Reddy (2017) - An Equivalent Layer-Wise Approach for the Free Vibration Analysis of Thick and Thin Laminated Sandwich Shells, Applied Sciences 7(1), 17, 1-34. (IF2017 1.689, ISSN: 2076-3417).
  17. F. Tornabene, N. Fantuzzi, M. Bacciocchi, J.N. Reddy (2017) - A Posteriori Stress and Strain Recovery Procedure for the Static Analysis of Laminated Shells Resting on Nonlinear Elastic Foundation, Composites Part B Engineering 126(1), 162-191. (IF2015 3.850, ISSN: 1359-8368).
  18. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola, J.N. Reddy (2017) - A Numerical Investigation on the Natural Frequencies of FGM Sandwich Shells with Variable Thickness by the Local Generalized Differential Quadrature Method, Applied Sciences 7(2), 131, 1-39. (IF2017 1.689, ISSN: 2076-3417).
  19. E. Viola, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Numerical Investigation of Composite Materials with Inclusions and Discontinuities, Key Engineering Materials 747(1), 69-76. (IF2015 -, ISSN: 1662-9795).
  20. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Mechanical Behaviour of Composite Cosserat Solids in Elastic Problems with Holes and Discontinuities, Composite Structures 179(1), 468-481. (IF2015 3.853, ISSN: 0263-8223).
  21. F. Zare Jouneghani, R. Dimitri, M. Bacciocchi, F. Tornabene (2017) - Free Vibration Analysis of Functionally Graded Porous Doubly-Curved Shells Based on the First-Order Shear Deformation Theory, Applied Sciences 7(12), 1252, 1-20. (IF2017 1.689, ISSN: 2076-3417).

2018

  1. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, Michele Bacciocchi, F. Tornabene (2018) - Application of Sinusoidal Shear Deformation Theory and Physical Neutral Surface to Analysis of Functionally Graded Piezoelectric Plate, Composites Part B Engineering 151, 35-50. (IF2015 3.850, ISSN: 1359-8368).
  2. M. Arefi, M. Mohammadi, A. Tabatabaeian, R. Dimitri, F. Tornabene (2018) - Two-Dimensional Thermo-Elastic Static Analysis of FG-CNTRC Cylindrical Pressure Vessels, Steel and Composite Structures 27(4), 525-536. (IF2016 3.198, ISSN: 1229-9367).
  3. M. Arefi, E.M.R. Bidgoli, R. Dimitri, F. Tornabene (2018) - Free Vibrations of Functionally Graded Polymer Composite Nanoplates Reinforced with Graphene Nanoplatelets, Aerospace Science and Technology 81, 108-117. (IF2016 2.057, ISSN: 1270-9638).
  4. S. Brischetto, F. Tornabene (2018) - Advanced GDQ Models and 3D Stress Recovery in Multi-layered Plates, Spherical and Double-Curved Panels Subjected to Transverse Shear Loads, Composites Part B Engineering 146, 244-269. (IF2015 3.850, ISSN: 1359-8368).
  5. R. Dimitri, F. Tornabene (2018) - Numerical Study of the Mixed-Mode Delamination of Composite Specimens, Journal of Composites Science 2(2), 30, 1-33. (IF2018 -, ISSN: 2504-477X).
  6. R. Dimitri, F. Tornabene, G. Zavarise (2018) - Analytical and Numerical Modeling of the Mixed-Mode Delamination Process for Composite Moment-Loaded Double Cantilever Beams, Composite Structures 187(3), 535-553. (IF2015 3.853, ISSN: 0263-8223).
  7. N. Fantuzzi, L. Leonetti, P. Trovalusci, F. Tornabene (2018) - Some Novel Numerical Applications of Cosserat Continua, International Journal of Computational Methods 15(3), 1850054-1-38. (IF2016 1.053, ISSN: 0219-8762).
  8. N. Fantuzzi, F. Tornabene, M. Bacciocchi, A.J.M. Ferreira (2018) - On the Convergence of Laminated Composite Plates of Arbitrary Shape through Finite Element Models, Journal of Composites Science 2(1), 16, 1-50. (IF2018 -, ISSN: 2504-477X).
  9. S.A.M. Ghannadpour, A. Kurkaani Barvaj, F. Tornabene (2018) - A Semi-Analytical Investigation on Geometric Nonlinear and Progressive Damage Behavior of Relatively Thick Laminated Plates under Lateral Pressure and End-Shortening, Composite Structures 194, 598-610. (IF2015 3.853, ISSN: 0263-8223).
  10. R. Jiwari, S. Tomasiello, F. Tornabene (2018) - A Numerical Algorithm for Computational Modelling of Coupled Advection-Diffusion-Reaction Systems, Engineering Computations 35(3), 1383-1401. (IF2016 1.010, ISSN: 0264-4401).
  11. Y. Kiani, R. Dimitri, F. Tornabene (2018) - Free Vibration of FG-CNT Reinforced Composite Skew Cylindrical Shells using Chebyshev-Ritz Formulation, Composites Part B Engineering 147, 169-177. (IF2015 3.850, ISSN: 1359-8368).
  12. Y. Kiani, R. Dimitri, F. Tornabene (2018) - Free Vibration Study of Composite Conical Panels Reinforced with FG-CNTs, Engineering Structures 172, 472-482. (IF2016 2.258, ISSN: 0141-0296).
  13. M. Malikan, V.B. Nguyen, F. Tornabene (2018) - Electro-Magnetic Forced Vibrations of Composite Nanoplates Using Nonlocal Strain Gradient Theory, Materials Research Express 5(7; 075031), 1-20. (IF2016 1.068, ISSN: 2053-1591).
  14. M. Malikan, V.B. Nguyen, F. Tornabene (2018) - Damped Forced Vibration Analysis of Single-Walled Carbon Nanotubes Resting on Viscoelastic Foundation in Thermal Environment Using Nonlocal Strain Gradient Theory, Engineering Science and Technology 21, 778-786. (IF2018 -, ISSN: 2215-0986).
  15. M. Malikan, R. Dimitri, F. Tornabene (2018) - Effect of Sinusoidal Corrugated Geometries on the Vibrational Response of Viscoelastic Nanoplates, Applied Sciences 8(9), 1432, 1-12. (IF2018 2.217, ISSN: 2076-3417).
  16. M. Malikan, R. Dimitri, F. Tornabene (2018) - Thermo-Resonance Analysis of an Excited Graphene Sheet Using a New Approach, International Journal of Engineering & Applied Sciences 10(3), 190-206. (IF2015 -, ISSN: 1309-0267).
  17. M. Malikan, F. Tornabene, R. Dimitri (2018) - Nonlocal Three-dimensional Theory of Elasticity for Buckling Behavior of Functionally Graded Porous Nanoplates Using Volume Integrals, Materials Research Express 5(9; 095006), 1-20. (IF2016 1.068, ISSN: 2053-1591).
  18. F. Tornabene, M. Bacciocchi (2018) - Effect of Curvilinear Reinforcing Fibers on the Linear Static Behavior of Soft-Core Sandwich Structures, Journal of Composites Science 2(1), 14, 1-43. (IF2018 -, ISSN: 2504-477X).
  19. F. Tornabene, M. Bacciocchi (2018) - Dynamic Stability of Doubly-Curved Multi-layered Shells Subjected to Arbitrarily Oriented Angular Velocities: Numerical Evaluation of the Critical Speed, Composite Structures 201, 1031-1055. (IF2015 3.853, ISSN: 0263-8223).
  20. F. Tornabene, S. Brischetto (2018) - 3D Capability of Refined GDQ Models for the Bending Analysis of Composite and Sandwich Plates, Spherical and Doubly-Curved Shells, Thin-Walled Structures 129, 94-124. (IF2018 3.488, ISSN: 0263-8231).
  21. F. Tornabene, R. Dimitri (2018) - A Numerical Study of the Seismic Response of Arched and Vaulted Structures Made of Isotropic or Composite Materials, Engineering Structures 159(3), 332-366. (IF2016 2.258, ISSN: 0141-0296).
  22. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2018) - Mechanical Behavior of Damaged Laminated Composites Plates and Shells: Higher-Order Shear Deformation Theories, Composite Structures 189(4), 304-329. (IF2015 3.853, ISSN: 0263-8223).
  23. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - Strong and Weak Formulations Based on Differential and Integral Quadrature Methods for the Free Vibration Analysis of Composite Plates and Shells: Convergence and Accuracy, Engineering Analysis with Boundary Elements 92, 3-37. (IF2016 1.721, ISSN: 0955-7997).
  24. F. Zare Jouneghani, R. Dimitri, F. Tornabene (2018) - Structural Response of Porous FG Nanobeams under Hygro-Thermo-Mechanical Loadings, Composites Part B Engineering 152, 71-78. (IF2015 3.850, ISSN: 1359-8368).
  25. F. Zare Jouneghani, P. Mohammadi Dashtaki, R. Dimitri, M. Bacciocchi, F. Tornabene (2018) - First-Order Shear Deformation Theory for Orthotropic Doubly-Curved Shells Based on a Modified Couple Stress Elasticity, Aerospace Science and Technology 73, 129-147. (IF2016 2.057, ISSN: 1270-9638).

2019

  1. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, Michele Bacciocchi, F. Tornabene (2019), Nonlocal Bending Analysis of Curved Nanobeams Reinforced by Graphene Nanoplatelets, Composites Part B Engineering 166, 1-12. (IF2015 3.850, ISSN: 1359-8368).
  2. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, F. Tornabene, J.N. Reddy (2019), Size-Dependent Free Vibrations of FG Polymer Composite Curved Nanobeams Reinforced with Graphene Nanoplatelets Resting on Pasternak Foundations, Applied Sciences 9(8), 1580, 1-19. (IF2018 2.217, ISSN: 2076-3417).
  3. F. Ebrahimi, A. Dabbagh, T. Rabczuk, F. Tornabene (2019) - Analysis of propagation characteristics of elastic waves in heterogeneous nanobeams employing a new two-step porosity-dependent homogenization scheme, Advances in Nano Research 7(2), 135-143. (IF2017 2.333, ISSN: 2287-237X).
  4. F. Ebrahimi, A. Dabbagh, F. Tornabene, O. Civalek (2019) - Wave Propagation Modeling within Magnetostrictive Nanostructure Systems in Hygrothermal Environment, Advances in Nano Research 7(3), 157-166. (IF2017 2.333, ISSN: 2287-237X).
  5. F. Ebrahimi, A. Seyfi, A. Dabbagh, F. Tornabene (2019) - Wave Dispersion Characteristics of Porous Graphene Platelet-Reinforced Composite Shells, Structural Engineering and Mechanics 71(1), 99-107. (IF2018 2.804, ISSN: 1225-4568).
  6. F. Ebrahimi, M.R. Barati, F. Tornabene (2019) - Mechanics of Nonlocal Advanced Magneto-Electro-Viscoelastic Plates, Structural Engineering and Mechanics 71(3), 257-269. (IF2018 2.804, ISSN: 1225-4568).
  7. S.A.M. Ghannadpour, M. Karimi, F. Tornabene (2019) - Application of Plate Decomposition Technique in Nonlinear and Post-Buckling Analysis of Functionally Graded Plates Containing Crack, Composite Structures 220, 158-167. (IF2015 3.853, ISSN: 0263-8223).
  8. A.R. Ghasemi, M. Mohandes, R. Dimitri, F. Tornabene (2019) - Agglomeration Effects on the Vibrations of CNTs/Fiber/Polymer/Metal Hybrid Laminates Cylindrical Shell, Composites Part B Engineering 167, 700-716. (IF2015 3.850, ISSN: 1359-8368).
  9. M.H. Jalaei, R. Dimitri, F. Tornabene (2019) - Dynamic Stability of Temperature-Dependent Graphene Sheet Embedded in an Elastomeric Medium, Applied Sciences 9(5), 887, 1-15. (IF2018 2.217, ISSN: 2076-3417).
  10. S.K. Jena, S. Chakraverty, R.M. Jena, F. Tornabene (2019) - A Novel Fractional Nonlocal Model and its Application in Buckling Analysis of Euler-Bernoulli Nanobeam, Materials Research Express 6(5) 055016, 1-17. (IF2016 1.068, ISSN: 2053-1591).
  11. S.K. Jena, S. Chakraverty, F. Tornabene (2019) - Vibration Characteristics of Nanobeam with Exponentially Varying Flexural Rigidity Resting on Linearly Varying Elastic Foundation Using Differential Quadrature Method, Materials Research Express 6(8) 085051, 1-13. (IF2016 1.068, ISSN: 2053-1591).
  12. S.K. Jena, S. Chakraverty, F. Tornabene (2019) - Dynamical Behavior of Nanobeam Embedded in Constant, Linear, Parabolic and Sinusoidal Types of Winkler Elastic Foundation Using First-Order Nonlocal Strain Gradient Model, Materials Research Express 6(8) 0850f2, 1-23. (IF2016 1.068, ISSN: 2053-1591).
  13. S.K. Jena, S. Chakraverty, F. Tornabene (2019) - Buckling Behavior of Nanobeams Placed in Electro-Magnetic Field Using Shifted Chebyshev Polynomials Based Rayleigh-Ritz Method, Nanomaterials 9(9), 1326, 1-15. (IF2018 4.034, ISSN: 2079-4991).
  14. B. Karami, D. Shahsavari, M. Janghorban, R. Dimitri, F. Tornabene (2019) - Wave Propagation of Porous Nanoshells, Nanomaterials 9(1), 22, 1-19. (IF2018 4.034, ISSN: 2079-4991).
  15. B. Karami, M. Janghorban, D. Shahsavari, R. Dimitri, F. Tornabene (2019) - Nonlocal Buckling Analysis of Composite Curved Beams Reinforced with Functionally Graded Carbon Nanotubes, Molecules 24(15), 2750, 1-14. (IF2018 3.060, ISSN: 1420-3049).
  16. B. Karami, M. Janghorban, R. Dimitri, F. Tornabene (2019) - Free Vibration Analysis of Triclinic Nanobeams Based on the Differential Quadrature Method, Applied Sciences 9(17), 3517, 1-17. (IF2018 2.217, ISSN: 2076-3417).
  17. L. Leonetti, N. Fantuzzi, P. Trovalusci, F. Tornabene (2019) - Scale Effects in Orthotropic Composite Assemblies as Micropolar Continua: A Comparison between Weak and Strong-Form Finite Element Solutions, Materials 12(5), 758, 1-24. (IF2016 2.654, ISSN: 1996-1944).
  18. M. Nejati, A. Ghasemi-Ghalebahman, A. Soltanimaleki, R. Dimitri, F. Tornabene (2019) - Thermal Vibration Analysis of SMA Hybrid Composite Double-Curved Sandwich Panels, Composite Structures 224(1) 111035, 1-11. (IF2015 3.853, ISSN: 0263-8223).
  19. M. Malikan, R. Dimitri, F. Tornabene (2019) - Transient Response of Oscillated Carbon Nanotubes with an Internal and External Damping, Composites Part B Engineering 158, 198-205. (IF2015 3.850, ISSN: 1359-8368).
  20. M. Malikan, V.B. Nguyen, R. Dimitri, F. Tornabene (2019) - Dynamic Modeling of Non-Cylindrical Curved Viscoelastic Single-Walled Carbon Nanotubes Based on the Second Gradient Theory, Materials Research Express 6(7) 075041, 1-17. (IF2016 1.068, ISSN: 2053-1591).
  21. M. Mohammadi, M. Arefi, R. Dimitri, F. Tornabene (2019) - Higher-Order Thermo-Elastic Analysis of FG-CNTRC Cylindrical Vessels Surrounded by a Pasternak Foundation, Nanomaterials 9(1), 79, 1-24. (IF2018 4.034, ISSN: 2079-4991).
  22. M. Mohammadi, M. Bamdad, K. Alambeigi, R. Dimitri, F. Tornabene (2019) - Electro-Elastic Response of Cylindrical Sandwich Pressure Vessels with Porous Core and Piezoelectric Face-Sheets, Composite Structures 225(1) 111119, 1-16. (IF2015 3.853, ISSN: 0263-8223).
  23. F. Tornabene (2019) - On the Critical Speed Evaluation of Arbitrarily Oriented Rotating Doubly-Curved Shells Made of Functionally Graded Materials, Thin-Walled Structures 140, 85-98. (IF2018 3.488, ISSN: 0263-8231).
  24. F. Tornabene, M. Bacciocchi, N. Fantuzzi, J.N. Reddy (2019) - Multiscale Approach for Three-Phase CNT/Polymer/Fiber Laminated Nanocomposite Structures, Polymer Composites 40, E102-E126. (IF2016 2.234, ISSN: 1548-0569).
  25. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2019) - Foam Core Composite Sandwich Plates and Shells with Variable Stiffness: Effect of Curvilinear Fiber Path on the Modal Response, Journal of Sandwich Structures and Materials 21(1), 320-365. (IF2015 2.852, ISSN: 1099-6362).
  26. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2019) - Refined Shear Deformation Theories for Laminated Composite Arches and Beams with Variable Thickness: Natural Frequency Analysis, Engineering Analysis with Boundary Elements 100, 24-47. (IF2016 1.721, ISSN: 0955-7997).

2020

  1. F. Allahkarami, H. Tohidi, R. Dimitri, F. Tornabene (2020) - Dynamic Stability of Bi-Directional Functionally Graded Porous Cylindrical Shells Embedded in an Elastic Foundation, Applied Sciences 10(4), 1345, 1-30. (IF2018 2.217, ISSN: 2076-3417).
  2. H. Arshid, M. Khorasani, Z. Soleimani-Javid, R. Dimitri, F. Tornabene (2020) - Quasi-3D Hyperbolic Shear Deformation Theory for the Free Vibration Study of Honeycomb Microplates with Graphene Nanoplatelets-Reinforced Epoxy Skins, Molecules 25(21), 5085, 1-21. (IF2018 3.060, ISSN: 1420-3049).
  3. R. Dimitri, F. Tornabene, J.N. Reddy (2020) - Numerical Study of the Mixed-Mode Behavior of Generally-Shaped Composite Interfaces, Composite Structures 237(1) 111935, 1-18. (IF2018 4.829, ISSN: 0263-8223).
  4. M.H. Dindarloo, Li Li, R. Dimitri, F. Tornabene (2020) - Nonlocal Elasticity Response of Doubly‐Curved Nanoshells, Symmetry 12(3), 466, 1-27. (IF2018 2.143, ISSN: 2073-8994).
  5. Y. Heydarpour, P. Malekzadeh, R. Dimitri, F. Tornabene (2020) - Thermoelastic Analysis of Rotating Multilayer FG-GPLRC Truncated Conical Shells Based on a Coupled TDQM-NURBS Scheme, Composite Structures 235(1) 111707, 1-19. (IF2018 4.829, ISSN: 0263-8223).
  6. Y. Heydarpour, P. Malekzadeh, R. Dimitri, F. Tornabene (2020) - Thermoelastic Analysis of Functionally Graded Cylindrical Panels with Piezoelectric Layers, Applied Sciences 10(4), 1397, 1-22. (IF2018 2.217, ISSN: 2076-3417).
  7. F. Zare Jouneghani, H. Babamoradi, R. Dimitri, F. Tornabene (2020) - A Modified Couple Stress Elasticity for Non-Uniform Composite Laminated Beams Based on the Ritz Formulation, Molecules 25(6), 1404, 1-17. (IF2018 3.060, ISSN: 1420-3049).
  8. S.A.M. Ghannadpour, F. Moradi, F. Tornabene (2020) - Exact Analytical Solutions to the Problem of Relative Post-Buckling Stiffness of Thin Nonlocal Graphene Sheets, Thin-Walled Structures 151(1) 106712, 1-13. (IF2018 4.488, ISSN: 0263-8231).
  9. M. Karimi, K. Khorshidi, R. Dimitri, F. Tornabene (2020) - Size-Dependent Hydroelastic Vibration of FG Microplates Partially in Contact with a Fluid, Composite Structures 244(1) 112320, 1-14. (IF2018 4.829, ISSN: 0263-8223).
  10. F. Khosravi, S.A. Hosseini, B.A. Hamidi, R. Dimitri, F. Tornabene (2020) -  Nonlocal Torsional Vibration of Elliptical Nanorods with Different Boundary Conditions, Vibration 3(3), 189-203, 1-15. (IF2019 -, ISSN: 2571-631X).
  11. M.S. Nematollahi, H. Mohammadi, R. Dimitri, F. Tornabene (2020) - Nonlinear Vibration of Functionally Graded Graphene Nanoplatelets Polymer Nanocomposite Sandwich Beams, Applied Sciences 10(16), 5669, 1-20. (IF2018 2.217, ISSN: 2076-3417).
  12. A.R. Noroozi, P. Malekzadeh, R. Dimitri, F. Tornabene (2020) - Meshfree Radial Point Interpolation Method for the Vibration and Buckling Analysis of FG-GPLRC Perforated Plates under an In-Plane Loading, Engineering Structures 221(1) 111000, 1-20. (IF2018 3.084, ISSN: 0141-0296).
  13. H.M. Sedighi, H.M. Ouakad, R. Dimitri, F. Tornabene (2020) - Stress-Driven Nonlocal Elasticity for Instability Analysis of Fluid-Conveying C-BN Hybrid-Nanotube in Magnetic and Thermal Environment, Physica Scripta 95(6) 065204, 1-17. (IF2018 2.151, ISSN: 0031-8949).
  14. R. Selvamani, M. Mahaveer Sree Jayan, R. Dimitri, F. Tornabene, F. Ebrahimi (2020) - Nonlinear Magneto Thermo Elastic Vibration of Mass Sensor Armchair Carbon Nanotube Resting on Stiff Elastic Substrate, Curved and Layered Structures 7, 153-165. (IF2019 -, ISSN: 2353-7396).
  15. A.H. Sofiyev, F. Tornabene, R. Dimitri, N. Kuruoglu (2020) - Buckling Behavior of FG-CNT Reinforced Composite Conical Shells Subjected to a Combined Loading, Nanomaterials 10(3), 419, 1-19. (IF2018 4.034, ISSN: 2079-4991).

2021

  1. M. Avey, F. Tornabene, R. Dimitri, N. Kuruoglu (2021) - Free Vibration of Thin-Walled Composite Shell Structures Reinforced with Uniform and Linear Carbon Nanotubes: Effect of the Elastic Foundation and Nonlinearity, Nanomaterials 11(8), 2090, 1-28. (IF2018 4.034, ISSN: 2079-4991).
  2. A.A. Daikh, M.S.A. Houari, B. Karami, M.A. Eltaher, R. Dimitri, F. Tornabene (2021) - Buckling Analysis of CNTRC Curved Sandwich Nanobeams in Thermal Environment, Applied Sciences 11(7), 3250, 1-20. (IF2018 2.217, ISSN: 2076-3417).
  3. S. Dastjerdi, M. Malikan, R. Dimitri, F. Tornabene (2021) - Nonlocal Elasticity Analysis of Moderately Thick Porous Functionally Graded Plates in a Hygro-Thermal Environment, Composite Structures 255(1) 112925, 1-13. (IF2018 4.829, ISSN: 0263-8223).
  4. R. Dimitri, M. Rinaldi, M. Trullo, F. Tornabene, C. Fidelibus (2021) - FEM/XFEM Modeling of the 3D Fracturing Process in Transversely Isotropic Geomaterials, Composite Structures 276(1) 114502, 1-18. (IF2018 4.829, ISSN: 0263-8223).
  5. F. Fazzolari, S. Scott, F. Tornabene (2021) - A 1D Ritz-Jacobi Formulation for the Modal Analysis of 3D Anisotropic Laminated Composite and Soft-Core Sandwich Beam Structures Through 2D Polynomials, Thin-Walled Structures 169(1) 108428, 1-21. (IF2018 4.488, ISSN: 0263-8231).
  6. F. Fazzolari, M. Viscoti, R. Dimitri, F. Tornabene (2021) - 1D Hierarchical Ritz and 2D GDQ Formulations for the Free Vibration Analysis of Circular/Elliptical Cylindrical Shells and Beam Structures, Composite Structures 258(2) 113338, 1-20. (IF2018 4.829, ISSN: 0263-8223).
  7. A.R. Ghasemi, A. Tabatabaeian, M.H. Hajmohammad, F.Tornabene (2021) - Multi-Step Buckling Optimization Analysis of Stiffened and Unstiffened Polymer Matrix Composite Shells: A New Experimentally Validated Method, Composite Structures 273(1) 114280, 1-10. (IF2018 4.829, ISSN: 0263-8223).
  8. S.K. Jena, S. Chakraverty, M. Malikan, F. Tornabene (2021) - Stability Analysis of Single-Walled Carbon Nanotubes Embedded in Winkler Foundation Placed in a Thermal Environment Considering the Surface Effect using a New Refined Beam Theory, Mechanics Based Design of Structures and Machines 49(4), 581-595. (IF2018 1.986, ISSN: 1539-7734).
  9. F. Kiarasi, M. Babaei, R. Dimitri, F. Tornabene (2021) - Hygrothermal Modeling of the Buckling Behavior of Sandwich Plates with Nanocomposite Face Sheets Resting on a Pasternak Foundation, Continuum Mechanics and Thermodynamics 33, 911-932. (IF2019 2.139, ISSN: 0935-1175).
  10. F. Kiarasi, M. Babaei, K. Asemi, R. Dimitri, F. Tornabene (2021) - Three-Dimensional Buckling Analysis of Functionally Graded Saturated Porous Rectangular Plates under Combined Loading Conditions, Applied Sciences 11(21), 10434, 1-24. (IF2018 2.217, ISSN: 2076-3417).
  11. M. Khorasani, L. Lampani, R. Dimitri, F. Tornabene (2021) - Thermomechanical Buckling Analysis of the E&P-FGM Beams Integrated by Nanocomposite Supports Immersed in a Hygrothermal Environment, Molecules 26(21), 6594, 1-20. (IF2018 3.060, ISSN: 1420-3049).
  12. S. Merdaci, H.M. Adda, B. Hakima, R. Dimitri, F. Tornabene (2021) - Higher-Order Free Vibration Analysis of Porous Functionally Graded Plates, Journal of Composites Science 5(11), 305, 1-15. (IF2018 -, ISSN: 2504-477X).
  13. M. Safarpour, A. Forooghi, R. Dimitri, F. Tornabene (2021) - Theoretical and Numerical Solution for the Bending and Frequency Response of Graphene Reinforced Nanocomposite Rectangular Plates, Applied Sciences 11(14), 6331, 1-25. (IF2018 2.217, ISSN: 2076-3417).
  14. M. Soltani, F. Atoufi, F. Mohri, R. Dimitri, F. Tornabene (2021) - Nonlocal Elasticity Theory for Lateral Stability Analysis of Tapered Thin-Walled Nanobeams with Axially Varying Materials, Thin-Walled Structures 159(1) 107268, 1-22. (IF2018 4.488, ISSN: 0263-8231).
  15. M. Soltani, F. Atoufi, F. Mohri, R. Dimitri, F. Tornabene (2021) - Nonlocal Analysis of the Flexural–Torsional Stability for FG Tapered Thin-Walled Beam-Columns, Nanomaterials 11(8), 1936, 1-28. (IF2018 4.034, ISSN: 2079-4991).
  16. F. Tornabene, M. Viscoti, R. Dimitri, M.A. Aiello (2021) - Higher Order Formulations for Doubly-Curved Shell Structures with a Honeycomb Core, Thin-Walled Structures 164(1) 107789, 1-36. (IF2018 4.488, ISSN: 0263-8231).
  17. F. Tornabene, M. Viscoti, R. Dimitri, M.A. Aiello (2021) - Higher-Order Modeling of Anisogrid Composite Lattice Structures with Complex Geometries, Engineering Structures 244(1) 112686, 1-43. (IF2018 3.084, ISSN: 0141-0296).
  18. F. Tornabene, M. Viscoti, R. Dimitri, J.N. Reddy (2021) - Higher Order Theories for the Vibration Study of Doubly-Curved Anisotropic Shells with a Variable Thickness and Isogeometric Mapped Geometry, Composite Structures 267(1) 113829, 1-29. (IF2018 4.829, ISSN: 0263-8223).
  19. F. Tornabene, M. Viscoti, R. Dimitri (2021) - Higher-Order Theories for Doubly Curved Laminated Lattice and Honeycomb Structures, in: 14th WCCM-ECCOMAS Congress 2020, WCCM-ECCOMAS2020. URL: https://www.scipedia.com/public/Tornabene_Dimitri_2021a.

2022

  1. M. Ramezani, M. Rezaiee-Pajand, F. Tornabene (2022) - Nonlinear dynamic analysis of FG/SMA/FG sandwich cylindrical shells using HSDT and semi ANS functions, Thin-Walled Structures 171(1) 108702, 1-13. (IF2018 4.488, ISSN: 0263-8231).
  2. M. Tarek, M.S.A. Houari, B. Aicha, M. Haboussi, R. Dimitri, F. Tornabene (2022) - Bending Analysis of Functionally Graded Porous Nanocomposite Beams Based on a Non-Local Strain Gradient Theory, Mathematics and Mechanics of Solids 27(1), 66-92. (IF2019 2.139, ISSN: 0935-1175).
  3. F. Tornabene, M. Viscoti, R. Dimitri (2022) - Generalized Higher Order Layerwise Theory for the Dynamic Study of Anisotropic Doubly-Curved Shells with a Mapped Geometry, Engineering Analysis with Boundary Elements 134, 147-183. (IF2016 1.721, ISSN: 0955-7997).

In Press

  1. S.K. Jena, S. Chakraverty, M. Malikan, F. Tornabene (2022) - Effects of Surface Energy and Surface Residual Stresses on Vibro-Thermal Analysis of Chiral, Zigzag, and Armchair Types of SWCNTs Using Refined Beam Theory, Mechanics Based Design of Structures and Machines, In Press. (IF2018 1.986, ISSN: 1539-7734).
  2. J. Poongkothai, S. Mahesh, R. Selvamani, R. Dimitri, F. Tornabene (2022) - Multi Thermal Waves in a Thermo Diffusive Piezo Electric Functionally Graded Rod via Refined Multi-Dual Phase-Lag Model, Curved and Layered Structures, In Press. (IF2019 -, ISSN: 2353-7396).
  3. M. Ramezani, M. Rezaiee-Pajand, F. Tornabene (2022) - Linear and Nonlinear Mechanical Responses of FG-GPLRC Plates Using a Novel Strain-Based Formulation of Modified FSDT Theory, International Journal of Non-Linear Mechanics, In Press. (IF2020 2.985, ISSN: 0020-7462).
  4. H. Sarparast, A. Ebrahimi-Mamaghani, M. Safarpour, H.M. Ouakad, R. Dimitri, F. Tornabene (2022) - Nonlocal Study of the Vibration and Stability Response of Small-scale Axially Moving Supported Beams on Viscoelastic-Pasternak foundation in a Hygro-thermal Environment, Mathematical Methods in the Applied Sciences, In Press. (IF2018 1.533, ISSN: 1099-1476).
  5. A.H. Sofiyev, Z. Mammadov, R. Dimitri, F. Tornabene (2022) - Vibration Analysis of Shear Deformable CNT-based FG Conical Shells Resting on Elastic Foundations, Mathematical Methods in the Applied Sciences, In Press. (IF2018 1.533, ISSN: 1099-1476).

 

2.3.1.1  Editorials in International Journals

  1. M. Cinefra, A. Pagani, F. Tornabene (2016) - Applications of Unified Formulation and Advanced Theories Using Several Numerical Approaches, Mechanics of Advanced Materials and Structures 23(9), 935-936. (IF2015 1, ISSN: 1537-6494).
  2. F. Tornabene (2017) - Journal of Composites Science: A New Journal for Composite Materials, Structures and Experiments, Journal of Composites Science 1(1), 1-2. (IF2015 -, ISSN: 2504-477X).
  3. F. Tornabene, R. Dimitri (2021) - Special Issue on Advanced Theoretical and Computational Methods for Complex Materials and Structures, Applied Sciences 11(6), 2532, 1-4. (IF2018 2.217, ISSN: 2076-3417).

 

2.3.2  International Monographs

  1. E. Viola, F. Tornabene (2007) - Dynamical Analysis of Spherical Shell Structural Elements Using the First-order Shear Deformation Theory, Mechanical Vibration: Where do we stand?, CISM Courses and Lectures no. 488, 17-41, ed. by I. Elishakoff, Springer - Wien, New York.
  2. F. Tornabene, N. Fantuzzi (2014) - Mechanics of Laminated Composite Doubly-Curved Shell Structures. The Generalized Differential Quadrature Method and the Strong Formulation Finite Element Method, Esculapio, Bologna. ISBN: 978-88-7488-687-6.
  3. A.J.M. Ferreira, E. Viola, F. Tornabene (2015) - International Conference on Shells, Plates and Beams Esculapio, Bologna. ISBN: 978-88-7488-886-3. ISSN: 2421-2822.
  4. A.J.M. Ferreira, A.M.A. Neves, E. Viola, F. Tornabene, N. Fantuzzi (2016) - 2nd International Conference on Mechanics of Composites, Esculapio, Bologna. ISBN: 978-88-7488-963-1. ISSN: 2421-2822.
  5. A.J.M. Ferreira, A.M.A. Neves, E. Viola, F. Tornabene, N. Fantuzzi (2016) - 19th International Conference on Composite Structures, Esculapio, Bologna. ISBN: 978-88-7488-977-8. ISSN: 2421-2822.
  6. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Laminated Composite Doubly-Curved Shell Structures I. Differential Geometry. Higher-Order Structural Theories, Esculapio, Bologna. ISBN: 978-88-7488-957-0. ISSN: 2421-2822.
  7. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Laminated Composite Doubly-Curved Shell Structures II. Differential and Integral Quadrature. Strong Formulation Finite Element Method, Esculapio, Bologna. ISBN: 978-88-7488-958-7. ISSN: 2421-2822.
  8. A.J.M. Ferreira, E. Viola, F. Tornabene, N. Fantuzzi (2017) - 3nd International Conference on Mechanics of Composites, Esculapio, Bologna. ISBN: 978-88-9385-029-2. ISSN: 2421-2822.
  9. F. Tornabene, N. Fantuzzi (2017) - Theory of Laminated Composite Doubly-Curved Shell Structures, Esculapio, Bologna. ISBN: 978-88-9385-001-8. ISSN: 2421-2822.
  10. A.J.M. Ferreira, W. Larbi, J.-F. Deu, F. Tornabene, N. Fantuzzi (2017) - 20th International Conference on Composite Structures, Esculapio, Bologna. ISBN: 978-88-9385-041-4. ISSN: 2421-2822.
  11. A.J.M. Ferreira, F. Tornabene, N. Fantuzzi, E. Viola (2018) - 21th International Conference on Composite Structures, Esculapio, Bologna. ISBN: 978-88-9385-079-7. ISSN: 2421-2822.
  12. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - DiQuMASPAB: Differential Quadrature for Mechanics of Anisotropic Shells, Plates, Arches and Beams. User Manual, Esculapio, Bologna. ISBN: 978-88-938-5063-6. ISSN: 2421-2822.
  13. F. Tornabene, M. Bacciocchi (2018) - Anisotropic Doubly-Curved Shells - Higher-Order Strong and Weak Formulations for Arbitrarily Shaped Shell Structures, Esculapio, Bologna. ISBN: 978-88-9385-080-3. ISSN: 2421-2822.
  14. F. Tornabene, R. Dimitri, S. Brischetto (2019) - Higher-order formulation for the mechanical analysis of laminated and latticed shells with complex geometries and materials, Advances in Boundary Element and Meshless Techniques XX, EC Ltd UK, I. Benedetti, A. Milazzo, F.M.H. Aliabadi Editors. ISBN: 978-0-9576731-6-8.
  15. F. Tornabene, M. Bacciocchi (2019) - Higher-Order Weak Formulation for Arbitrarily Shaped Doubly-Curved Shells, Recent Developments in the Theory of Shells, Springer Nature Switzerland AG 2020, H. Altenbach et al. (eds.). ISBN: 978-3-030-17746-1.
  16. F. Tornabene, N. Fantuzzi (2019) - Strong Formulation: A Powerful Way for Solving Doubly Curved Shell Structures, Recent Developments in the Theory of Shells, Springer Nature Switzerland AG 2020, H. Altenbach et al. (eds.). ISBN: 978-3-030-17746-1.
  17. F. Tornabene, R. Dimitri (2020) - Generalized Differential and Integral Quadrature: Theory and Applications, Mathematical Methods in Interdisciplinary Sciences, Wiley 2020, S. Chakraverty (ed.). ISBN: 978-1-119-58550-3.
  18. F. Tornabene, R. Dimitri (2021) - Advanced Theoretical and Computational Methods for Complex Materials and Structures, MDPI 2021. ISBN: 978-3-0365-1118-4 (Hbk), ISBN: 978-3-0365-1119-1 (PDF).
  19. S. Chakraverty, F. Tornabene, J.N. Reddy (2021) - Modeling and Computation in Vibration Problems, Volume 1: Numerical and Semi-Analytical Methods, IOP 2021. ISBN: 978-0-7503-3481-5.
  20. S. Chakraverty, F. Tornabene, J.N. Reddy (2021) - Modeling and Computation in Vibration Problems: Soft Computing and Uncertainty, IOP Publishing Ltd 2021. ISBN: 978-0-7503-3485-3.
  21. S. Brischetto, F. Tornabene, R. Dimitri (2021) - Continuum 3D and 2D shell models for free vibration analysis of single-walled and double-walled carbon nanotubes, Modeling and Computation in Vibration Problems, Volume 1: Numerical and Semi-Analytical Methods, IOP 2021, S. Chakraverty et al. (eds.). ISBN: 978-0-7503-3481-5.
  22. F. Tornabene, M. Viscoti, R. Dimitri (2021) - Higher order theory for the modal analysis of doubly-curved shells with lattice layers and honeycomb cores, Modeling and Computation in Vibration Problems, Volume 1: Numerical and Semi-Analytical Methods, IOP 2021, S. Chakraverty et al. (eds.). ISBN: 978-0-7503-3481-5.
  23. F. Tornabene, R. Dimitri, S. Brischetto (2021) - Advanced mechanical modeling of functionally graded carbon nanotubes-reinforced composite materials and structures, Modeling and Computation in Vibration Problems, Volume 1: Numerical and Semi-Analytical Methods, IOP 2021, S. Chakraverty et al. (eds.). ISBN: 978-0-7503-3481-5.
  24. F. Tornabene, M. Viscoti, R. Dimitri (2022) - Structural analysis of doubly-curved shells with general boundary conditions, Springer 2022, In Press.

 

2.3.3  National Monographs

  1. F. Cesari, F. Tornabene (2011) - Esercizi di Meccanica delle Strutture: I Materiali Compositi, Pitagora, Bologna. ISBN: 88-371-1844-9.
  2. F. Tornabene (2012) - Meccanica delle Strutture a Guscio in Materiale Composito. Il metodo Generalizzato di Quadratura Differenziale, Esculapio, Bologna. ISBN: 978-88-7488-527-5.
  3. F. Tornabene, R. Dimitri (2015) - Stabilità dell’Equilibrio Elastico, Esculapio, Bologna. ISBN: 978-88-7488-845-0.
  4. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Strutture a Guscio in Materiale Composito I. Geometria Differenziale. Teorie di Ordine Superiore, Esculapio, Bologna. ISBN: 978-88-7488-855-9. ISSN: 2421-2822.
  5. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Strutture a Guscio in Materiale Composito II. Quadratura Differenziale e Integrale. Elementi Finiti in Forma Forte, Esculapio, Bologna. ISBN: 978-88-7488-856-6. ISSN: 2421-2822.
  6. F. Tornabene (2017) - Teoria delle Strutture a Guscio in Materiale Composito, Esculapio, Bologna. ISBN: 978-88-9385-000-1. ISSN: 2421-2822.

 

2.3.4  Publications in International Conferences

  1. E. Viola, L. Panzacchi, F. Tornabene (2004) - Structural Analysis of Historical Masonry Arches, International Conference of Restoration, Recycling and Rejuvenation Technology for Engineering and Architecture Application (RRTEA2004), Cesena, Italy, 7-11 June 2004. In: G.C. Sih et L. Nobile (eds.), Restoration, Recycling and Rejuvenation Technology for Engineering and Architecture Application, 358-369.
  2. F. Tornabene, E. Viola (2005) - The Effect of Cracks on the Dynamic Response of Circular Arches with Varying Cross-section by G.D.Q.E. Technique, IV° International Conference on Fracture and Damage Mechanics (FDM2005), Mallorca, Spain, 12-14 July 2005. In: M.H. Aliabadi et al. (eds.), Advances in Fracture and Damage Mechanics IV, 295-300.
  3. F. Tornabene, E. Viola (2006) - Differential Quadrature Solution for Parabolic Structural Shell Elements, III° European Conference on Computational Mechanics (ECCM2006), Lisbon, Portugal, 5-8 June 2006. In: C.A. Mota Soares et al. (eds.), Solids, Structures and Coupled Problems in Engineering, 393.
  4. F. Tornabene, F. Ubertini, E. Viola (2007) - The Generalized Differential Quadrature Method for Solving Initial-value Problems in Linear Dynamics, International Symposium on Recent Advances in Mechanics, Dynamical Systems and Probability Theory (MDP 2007), Palermo, Italy, 3-6 June 2007.
  5. F. Tornabene, E. Viola (2008) - A Generalized Differential Quadrature Solution for Laminated Composite Shells of Revolution, VIII° World Congress on Computational Mechanics (WCCM2008) - V° European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS2008), Venezia, Italy, 30 June - 4 July 2008.
  6. F. Tornabene, S. Abrate (2012) - Free Vibrations of Doubly Curved Functionally Graded Shells, International Conference on Mechanics of Nano, Micro and Macro Composite Structures (ICMNMMCS2012), Torino, Italy, 18-20 June 2012. In: A. J. M. Ferreira, E. Carrera (eds.), Mechanics of Nano, Micro and Macro Composite Structures.
  7. F. Tornabene, A. Liverani, G. Caligiana (2012) - Static Analysis with Normal and Shear Stress Recovery for Anisotropic Doubly-Curved Shell Panels Using the Differential Geometry and the GDQ Method, International Conference on Mechanics of Nano, Micro and Macro Composite Structures (ICMNMMCS2012), Torino, Italy, 18-20 June 2012. In: A. J. M. Ferreira, E. Carrera (eds.), Mechanics of Nano, Micro and Macro Composite Structures.
  8. N. Fantuzzi, F. Tornabene, E. Viola (2013) - Free Vibrations of Functionally Graded Cracked Plates of Arbitrary Shape via GDQFEM, 6th ECCOMAS Thematic Conference on Smart Structures and Materials (SMART2013), Torino, Italy, 24-26 June 2013.
  9. F. Tornabene, N. Fantuzzi, E. Viola (2013) - Layer-Wise and Equivalent-Single-Layer Theories for Laminated Composite Doubly-Curved Shells and Panels Using Differential Geometry and GDQ Method, 17th International Conference on Composite Structures (ICCS17), Porto, Portugal, 17-21 June 2013.
  10. F. Tornabene, N. Fantuzzi, E. Viola (2013) - Dynamic and Static Analysis of Laminated Doubly-Curved Shells and Panels Using Layer-Wise and Equivalent-Single-Layer Theories via GDQ Method, The 21st International Conference on Composite/Nano Engineering (ICCE21), Tenerife, Spain, 21-27 July 2013.
  11. F. Tornabene, N. Fantuzzi, E. Viola (2013) - Vibration Analysis of Laminated Doubly-Curved Shells and Panels Using Higher-Order Equivalent-Single-Layer and Layer-Wise Theories, 9th International Symposium on Vibrations of Continuous Systems (ISVCS13), Courmayeur, Italy, 22-26 July 2013.
  12. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Generalized Differential Quadrature Finite Element Method for Arbitrary Shaped Composite Structures, 17th International Conference on Composite Structures (ICCS17), Porto, Portugal, 17-21 June 2013.
  13. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - On Static Analysis of Composite Plane State Structures via GDQFEM and Cell Method, International Conference on Computational and Experimental Engineering and Sciences (ICCES2013), Seattle, USA, 24-28 May 2013.
  14. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - GDQFEM and Cell Method Numerical Simulations of Continuous Media with Cracks and Discontinuities, International Conference on Computational and Experimental Engineering and Sciences (ICCES2013), Seattle, USA, 24-28 May 2013.
  15. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - Soft Core Plane State Structures Under Static Loads Using GDQFEM and Cell Method, International Conference on Computational and Experimental Engineering and Sciences (ICCES2013), Seattle, USA, 24-28 May 2013.
  16. N. Fantuzzi, F. Tornabene, E. Viola (2014) - Multi-Layered Structures of Arbitrary Shape via Generalized Differential Quadrature Finite Element Method, 1st International Conference on Mechanics of Composites (MECHCOMP2014), Stony Brook, USA, 8-12 June 2014.
  17. N. Fantuzzi, F. Tornabene, E. Viola (2014) - Dynamic and Static Behavior of Arbitrarily Shaped Laminated Composite Plates via Strong Formulation Finite Element Method, The 22th International Conference on Composite/Nano Engineering (ICCE22), Malta, 13-19 July 2014.
  18. E. Viola, F. Tornabene, N. Fantuzzi (2014) - Stress and Strain Recovery of Laminated Composite Doubly-Curved Shells and Panels Using Higher-Order Formulations, Mechanics of Masonry Structures Strengthened with Composite Materials, Modeling, Testing, Design, Control (MuRiCo4), Ravenna, Italy, 9-11 September 2014.
  19. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - The Strong Formulation Finite Element Method Applied to Structural Mechanics Problems, GAMM 86th Annual Scientific Conference (GAMM2015), Lecce, Italy, 23-27 March 2015.
  20. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Advanced Applications for Laminated Doubly-Curved Shells with Variable Curvatures, 18th International Conference on Composite Structures (ICCS18), Porto, Portugal, 15-18 June 2015.
  21. N. Fantuzzi, F. Tornabene, E. Viola (2015) - Strong Formulation Finite Element Method for Arbitrary Shaped Composite Structures, 18th International Conference on Composite Structures (ICCS18), Porto, Portugal, 15-18 June 2015.
  22. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Computational Models for Laminated Doubly-Curved Shells with Variable Radii of Curvatures Using Weak and Strong Formulations, 9th European Solid Mechanics Conference (ESMC2015), Madrid, Spain, 6-10 July 2015.
  23. N. Fantuzzi, M. Bacciocchi, F. Tornabene, E. Viola (2015) - Static and Dynamic Analyses of Arbitrarily Shaped Laminated Composite Structures, International Conference on Shells, Plates and Beams (SPB2015), Bologna, Italy, 9-11 September 2015.
  24. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Higher-Order Theories for the Structural Analysis of Doubly-Curved Shells and Panels Made of Innovative Materials, International Conference on Shells, Plates and Beams (SPB2015), Bologna, Italy, 9-11 September 2015.
  25. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2016) - Moving Least Squares Differential Quadrature Based on Radial Basis Functions for the Vibration Analysis of Beams, Plates and Shells, International Conference on Vibrations and Buckling 2016 (VibBuck2016), Porto, Portugal, 7-9 March 2016.
  26. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2016) - Mechanics of Arbitrarily Shaped Composite Structures Using Isogeometric Mapping, 2nd International Conference on Mechanics of Composites (MECHCOMP2), Porto, Portugal, 11-14 July 2016.
  27. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Higher-Order Theories for the Structural Analysis of Doubly-Curved Shells with Variable Mechanical Properties, 2nd International Conference on Mechanics of Composites (MECHCOMP2), Porto, Portugal, 11-14 July 2016.
  28. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2016) - Isogeometric Analysis of Composite Structures Through Mapping Using Blending Functions, 19th International Conference on Composite Structures (ICCS19), Porto, Portugal, 5-9 September 2016.
  29. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - A General Formulation Based on Higher-Order Theories for the Static and Dynamic Analysis of Doubly-Curved Structures with Variable Mechanical and Geometrical Properties, 19th International Conference on Composite Structures (ICCS19), Porto, Portugal, 5-9 September 2016.
  30. N. Fantuzzi, F. Tornabene, M. Bacciocchi, R. Dimitri (2016) - Free Vibration Analysis of Functionally Graded Carbon Nanotube-Reinforced Composite Plates with Arbitrary Domains and Discontinuities, Multiscale Innovative Materials and Structures (MIMS16), Cetara, Italy, 28-30 October 2016.
  31. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Static and Dynamic Behavior of Functionally Graded Carbon Nanotube-Reinforced Laminated Composite Doubly-Curved Shells: Higher-Order Structural Approaches, Multiscale Innovative Materials and Structures (MIMS16), Cetara, Italy, 28-30 October 2016.
  32. E. Viola, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Numerical Investigation of Composite Materials with Inclusions and Discontinuities, Mechanics of Masonry Structures Strengthened with Composite Materials, Modeling, Testing, Design, Control (MuRiCo5), Bologna, Italy, 28-30 June 2017.
  33. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2017) - Mechanics of Structural Components by Using a Numerical Approach Based on Blending Functions Mapping and a Strong Formulation, 3rd International Conference on Mechanics of Composites (MECHCOMP3), Bologna, Italy, 4-7 July 2017.
  34. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2017) - Investigation on the Structural Response of Plates and Shells with Variable Mechanical Properties: Modeling of the Damage, 3rd International Conference on Mechanics of Composites (MECHCOMP3), Bologna, Italy, 4-7 July 2017.
  35. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2017) - Nanocomposite Plates and Shells Reinforced by Agglomerated Carbon Nanotubes: Static and Dynamic Analysis, The 25th International Conference on Composite/Nano Engineering (ICCE25), Roma, Italy, 16-22 July 2017.
  36. N. Fantuzzi, L. Leonetti, P. Trovalusci, F. Tornabene (2017) - Some Novel Numerical Applications of Cosserat Continua, 8th International Conference on Computational Methods (ICCM2017), Guilin, China, 25-29 July 2017.
  37. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2017) - Composite Structures of Arbitrary Shape by Using Nonlinear Isogeometric Mapping, 20th International Conference on Composite Structures (ICCS20), Paris, France, 4-7 September 2017.
  38. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2017) - Mechanical Behavior of Damaged Laminated Composites Plates and Shells: Higher-Order Shear Deformation Theories, 20th International Conference on Composite Structures (ICCS20), Paris, France, 4-7 September 2017.
  39. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Isogeometric Analysis of Arbitrarily Shaped Structures: A Numerical Approach Based on the Strong Formulation, V International Conference on Isogeometric Analysis (IGA2017), Pavia, Italy, 11-13 September 2017.
  40. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - A Numerical Approach Based on the GDQ Method for the Linear Static Analysis of Laminated Composite Shells Subjected to Point and Line Loads, IV ECCOMAS Young Investigator Conference (YIC2017), Milano, Italy, 13-15 September 2017.
  41. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - How to Easily Model Doubly Curved Shells with Variable Radii of Curvature, The 11th Conference on Shell Structures: Theory and Applications (SSTA11), Gdańsk, Poland, 11-13 October 2017.
  42. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - Modelling of Damaged Laminated and Sandwich Shell Structures by means of Higher-order Shear Deformation Theories, 10th European Solid Mechanics Conference (ESMC2018), Bologna, Italy, 2-6 July 2018.
  43. N. Fantuzzi, M. Bacciocchi, F. Tornabene (2018) - Peculiar Convergence and Accuracy for Laminated Moderately Thick Plates of Arbitrary Shape in Free Vibrations, 4th International Conference on Mechanics of Composites (MECHCOMP4), Madrid, Spain, 9-12 July 2018.
  44. F. Tornabene, M. Bacciocchi, N. Fantuzzi (2018) - Critical Velocity Evaluation of Rotating Laminated Composite Doubly-Curved Shells, 4th International Conference on Mechanics of Composites (MECHCOMP4), Madrid, Spain, 9-12 July 2018.
  45. R. Dimitri, F. Tornabene (2018) - Numerical Study of the Mixed-Mode Delamination of Generally-Shaped Composite Interfaces, 21th International Conference on Composite Structures (ICCS21), Bologna, Italy, 4-7 September 2018.
  46. N. Fantuzzi, M. Bacciocchi, F. Tornabene (2018) - Free Vibration Problem of Composite Plates of Arbitrary Shape: Where Do We Stand?, 21th International Conference on Composite Structures (ICCS21), Bologna, Italy, 4-7 September 2018.
  47. F. Tornabene (2018) - Higher-Order Formulations for the Mechanical Analysis of Doubly-Curved Shell Structures Made of Advanced and Innovative Materials, 21th International Conference on Composite Structures (ICCS21), Bologna, Italy, 4-7 September 2018.
  48. R. Dimitri, F. Tornabene (2018) - Advanced Modeling for the Mixed-Mode Delamination of Composite Specimens, 9th International Conference on Computational Methods (ICCM2018), Roma, Italy, 6-10 August 2018.
  49. L. Leonetti, N. Fantuzzi, P. Trovalusci, F. Tornabene (2018) - Mechanical Behavior of Orthotropic Micropolar Continua Subjected to Localized Loads, 9th International Conference on Computational Methods (ICCM2018), Roma, Italy, 6-10 August 2018.
  50. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - An Innovative Numerical Approach for the Mechanical Analysis of Damaged Laminated Composite Structures, 9th International Conference on Computational Methods (ICCM2018), Roma, Italy, 6-10 August 2018.
  51. R. Dimitri, F. Tornabene (2019) - Numerical Debonding Modelling of Curved Composite Specimens in Mixed-Mode Condition, International Conference on Nonlinear Solid Mechanics (ICoNSoM2019), Rome, Italy, 16-19 June 2019.
  52. F. Tornabene, R. Dimitri (2019) - Vibration Analysis of Composite Laminated and Latticed Structures Based on Higher-Order Formulations, International Conference on Nonlinear Solid Mechanics (ICoNSoM2019), Rome, Italy, 16-19 June 2019.
  53. R. Torre, S. Brischetto, F. Tornabene (2019) - Analytical and Semi-Analytical 3D Shell Models for Composite Structures, 5th International Conference on Mechanics of Composites (MECHCOMP5), Lisbon, Portugal, 1-4 July 2019.
  54. F. Tornabene, R. Dimitri, S. Brischetto (2019) - Higher-Order Formulation for the Mechanical Analysis of Laminated and Latticed Shells with Complex Geometries and Materials, International Conference on Boundary Element Techniques (BETEQ2019), Palermo, Italy, 22-24 July 2019.
  55. R. Torre, S. Brischetto, F. Tornabene (2019) - Cylindrical Bending in Composite Structures by Means of Analytical and Numerical 2D/3D Shell Models, 22th International Conference on Composite Structures (ICCS22), Wuhan, China, 31 October - 3 November 2019.
  56. R. Dimitri, F. Tornabene (2020) - GDQ-Based Study of the Mixed-Mode Interfacial Response of Composite Specimens with a Curved Geometry, 1st Italian Workshop on Shell and Spatial Structures (IWSS2020), Torino, Italy, 25-26 June 2020.
  57. F. Tornabene, R. Dimitri (2020) - Higher-Order Mechanical Modelling of Laminated and Latticed Composite Shells with a Complex Material and Geometry, 1st Italian Workshop on Shell and Spatial Structures (IWSS2020), Torino, Italy, 25-26 June 2020.
  58. F. Fazzolari, M. Viscoti, R. Dimitri, F. Tornabene (2020) - 1D Hierarchical Ritz- and 2D GDQ-Based Approaches for the Mechanical  Modeling of Thin-Walled Composite Structures, 23rd International Conference on Composite Structures (ICCS23) and 6th International Conference on Mechanics of Composites (MECHCOMP6), Porto, Portugal, 1-4 September 2020.
  59. F. Tornabene, R. Dimitri (2020) - Advanced Higher-Order Mechanical Modelling of Anisotropic Doubly-Curved Shell Structures, 23rd International Conference on Composite Structures (ICCS23) and 6th International Conference on Mechanics of Composites (MECHCOMP6), Porto, Portugal, 1-4 September 2020.
  60. F. Tornabene, R. Dimitri (2020) - Higher-Order Modeling of Anisogrid Lattice Shell Structures with Complex Geometries, 18th International Conference of Numerical Analysis and Applied Mathematics (ICNAAM2020), Rhodes, Greece, 17-23 September 2020.
  61. F. Tornabene, R. Dimitri (2021) - Higher-Order Mechanical Modeling of Composite Materials and Structures, 14th World Congress in Computational Mechanics (WCCM XIV) and 8th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2020), Paris, France, 11-15 January 2021.
  62. M. Avey, F. Tornabene (2021) - Linear Free Vibration Analysis of Panels Reinforced by Carbon Nanotubes in the Framework of Shear Deformation Theory, XXII National Mechanics Congress (TUMTMK21), Adana, Turkey,  6-10 September 2021.
  63. M. Viscoti, R. Dimitri, F. Tornabene (2021) - Higher-Order Modelling of Latticed-Structures and Doubly-Curved Sandwich Plates and Shells with a Honeycomb and Grid Core, 24th International Conference on Composite Structures (ICCS24), Porto, Portugal, 14-18 June 2021.
  64. M. Rinaldi, M. Trullo, F. Tornabene, R. Dimitri (2021) - Computational modeling based on XFEM and cohesive interfaces of the 3D fracturing process in anisotropic layered geomaterials, 7th International Conference on Mechanics of Composites (MECHCOMP7), Porto, Portugal, 1-3 September 2020.
  65. M. Viscoti, R. Dimitri, F. Tornabene (2022) - Higher Order Theories for the Static and Free Vibration Analysis of Doubly-Curved Shells of Innovative Materials Enforced with General Boundary Conditions, 25th International Conference on Composite Structures (ICCS25), Porto, Portugal, 19-22 July 2022.
  66. M. Rinaldi, M. Trullo, F. Tornabene, R. Dimitri (2022) - XFEM and Cohesive Modelling of the Fracturing Process in Anisotropic Layered Geomaterials, 8th International Conference on Mechanics of Composites (MECHCOMP8), Wuhan, China, 22-24 April 2022.
  67. M. Viscoti, R. Dimitri, F. Tornabene (2022) - Static and Free Vibration Analysis of Generally Anisotropic Doubly-Curved Shells via the GDQ Method, International Conference on Nonlinear Solid Mechanics (ICoNSoM2022), Alghero, Italy, 13-16 June 2022.

 

2.3.5  Publications in National Conferences

  1. E. Viola, F. Tornabene (2006) - Free Vibration Analysis of Shells of Revolution Using GDQ Method, XVI° Convegno Italiano di Meccanica Computazionale (GIMC 2006), Bologna, Italy, 26-28 June 2006. In: F. Ubertini et al. (eds.), Atti XVI° Convegno Italiano di Meccanica Computazionale, 93.
  2. C. Boldrini, F. Tornabene, E. Viola (2007) - Analytical Formulation by Means of Complex Potentials of Crack Models in a Piezoelectric Material, Convegno Italiano “Materiali e Metodi Innovativi nell’Ingegneria Strutturale”, Catania, Italy, 4-6 July 2007. In: A. Badalà et al. (eds.), Materiali e Metodi Innovativi nell’Ingegneria Strutturale, 241-256.
  3. F. Tornabene, E. Viola (2007) - Free Vibrations of Laminated Composite Hyperbolic Shells of Revolution Via GDQ Method, Convegno Italiano “Materiali e Metodi Innovativi nell’Ingegneria Strutturale”, Catania, Italy, 4-6 July 2007. In: A. Badalà et al. (eds.), Materiali e Metodi Innovativi nell’Ingegneria Strutturale, 257-272.
  4. F. Tornabene, E. Viola (2007) - Free Vibration Analysis of Functionally Graded Doubly Curved Shell Structures Using GDQ Method, XVIII° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA 2007), Brescia, Italy, 11-14 September 2007. In: A. Carini et al. (eds.), XVIII° Congresso AIMETA di Meccanica Teorica e Applicata, 298-299.
  5. F. Tornabene (2011) - Shear and Normal Stress Recovery for Anisotropic Shells and Panels of Revolution via the GDQ Method, XX° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA 2011), Bologna, Italy, 12-15 September 2011. In: F. Ubertini et al. (eds.), XX° Congresso AIMETA di Meccanica Teorica e Applicata, 281.
  6. Tornabene, N. Fantuzzi, E. Viola (2013) - General Higher-Order Equivalent Single Layer and Layer Wise Theories for Laminated Composite Shells and Panels Using GDQ Method, XXI° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2013), Torino, Italy, 17-20 September 2013.
  7. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Static Analysis of Arbitrarily Shaped Composite Plates via GDQFEM, XXI° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2013), Torino, Italy, 17-20 September 2013.
  8. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - The Strong Formulation Finite Element Method: Stability and Accuracy, XX° Convegno Italiano di Meccanica Computazionale - VII Riunione del Gruppo Materiali AIMETA (GIMC-GMA2014), Cassino, Italy, 11-13 June 2014.
  9. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Static and Dynamic Analyses of Doubly-Curved Composite Thick Shells with Variable Radii of Curvatures, XXII° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2015), Genova, Italy, 14-17 September 2015.
  10. E. Viola, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2015) - Structural Mechanics Applications using Strong Formulation Finite Element Method, XXII° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2015), Genova, Italy, 14-17 September 2015.
  11. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2015) - Advanced Laminated Composite Applications for Doubly-Curved Shell Structural Components with Variable Curvature, XXIII° Conference of the Italian Association of Aeronautics and Astronautics (AIDAA2015), Torino, Italy, 17-19 November 2015.
  12. R. Dimitri, N. Fantuzzi, F. Tornabene, G. Zavarise (2016) - A Comparative SFEM- and IGA-Based Numerical Prediction of the Stress Concentration Factor in Plates with Discontinuities, XXI° Convegno Italiano di Meccanica Computazionale - VIII Riunione del Gruppo Materiali AIMETA (GIMC-GMA2016), Lucca, Italy, 27-29 June 2016.
  13. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - Finite Element Method Based on a Strong Formulation Isogeometric Analysis, XXI° Convegno Italiano di Meccanica Computazionale - VIII Riunione del Gruppo Materiali AIMETA (GIMC-GMA2016), Lucca, Italy, 27-29 June 2016.
  14. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2017) - Mechanical Behavior of Laminated Composite Shells with Arbitrary Domains: Comparison Between Weak and Strong Formulations, XXIII° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2017), Salerno, Italy, 4-7 September 2015.
  15. F. Tornabene, M. Bacciocchi, N. Fantuzzi (2018) - Strong and Weak Formulations for the Analysis of Arbitrarily Shaped Laminated Composite Structures, XXII° Convegno Italiano di Meccanica Computazionale - IX Riunione del Gruppo Materiali AIMETA (GIMC-GMA2018), Ferrara, Italy, 13-14 September 2018.
  16. L. Leonetti, N. Fantuzzi, P. Trovalusci, F. Tornabene (2018) - The Effect of Micro-Polar Rotation in 2D Cosserat Solids, XXII° Convegno Italiano di Meccanica Computazionale - IX Riunione del Gruppo Materiali AIMETA (GIMC-GMA2018), Ferrara, Italy, 13-14 September 2018.

 

2.4  Editorial Board Activities and Review

2.4.1  Editor-in-Chief of International Journals

- Editor-In-Chief of International Journals:

  1. Curved and Layered Structures [ISSN: 2353-7396] (from 2014 to Today).
  2. Journal of Composites Science [ISSN: 2504-477X] (from 2017 to Today).

- Co-Editor of International Journals:

  1. Science and Engineering of Composite Materials [ISSN: 2191-0359] (from 2018 to Today).
  2. The Open Civil Engineering Journal [ISSN: 1874-1495] (from 2017 to Today).

 

- Associate Editor of International Journals:

  1. Frontiers in Built Environment, Section Computational Methods in Structural Engineering [ISSN: 2297-3362] (from 2020 to Today).
  2. Mechanics Based Design of Structures and Machines [ISSN: 1539-7734] (from 2019 to Today).

- Editor of International Journals:

  1. HighTech and Innovation Journal [ISSN: 2723-9535] (from 2020 to Today).
  2. Heliyon [ISSN: 2405-8440] (from 2018 to Today).
  3. Mathematical Problems in Engineering [ISSN: 1024-123X] (from 2015 to Today).

 

2.4.2  Editor-In-Chief of International Book Series

- Editor-In-Chief of International Book Series:

  1. Structural and Computational Mechanics Book Series [ISSN: 2421-2822] (from 2015 to Today).

 

2.4.3  Guest Editor Activities

- Guest Editor of the following Special Issues:

  1. Applications of Unified Formulation and Advanced Theories Using Several Numerical Approaches, Mechanics of Advanced Materials and Structures 23(9) [ISSN: 1537-6494] (2015-2016). [14 papers]

https://www.tandfonline.com/doi/abs/10.1080/15376494.2015.1121560

  1. Applications of Generalized Differential and Integral Quadrature Methods, Applied Sciences [ISSN: 2076-3417] (2016-2017). [6 papers]

https://www.mdpi.com/journal/applsci/special_issues/integral_quadrature_methods

  1. Functionally Graded Material (FGM) and Functionally Graded Carbon Nanotube (FG-CNT) Reinforced Composites, Applied Sciences [ISSN: 2076-3417] (2017-2018). [7 papers]

https://www.mdpi.com/journal/applsci/special_issues/fgm

  1. Mechanics of Innovative Materials in Engineering Applications, Journal of Composites Science [ISSN: 2504-477X] (2018-2019). [6 papers]

https://www.mdpi.com/journal/jcs/special_issues/Engineering_Applications

  1. Advanced Theoretical and Computational Methods for Complex Materials and Structures, Applied Sciences [ISSN: 2076-3417] (2018-2019). [12 papers]

https://www.mdpi.com/journal/applsci/special_issues/complex_materials

  1. Structural Mechanics of Composite Materials and Structures, Molecules [ISSN: 1420-3049] (2019-2020). [8 papers]

https://www.mdpi.com/journal/molecules/special_issues/Mechanics_Structures

  1. Advanced Mechanical Modeling of Nano-Materials and Nano-Structures, Nanomaterials [ISSN: 1420-3049] (2019-2020). [11 papers]

https://www.mdpi.com/journal/nanomaterials/special_issues/mechanical_modeling

  1. Feature Papers in Journal of Composites Science in 2019, Journal of Composites Science [ISSN: 2504-477X] (2019-2020). [21 papers]

https://www.mdpi.com/journal/jcs/special_issues/jcs_feature_papers_2019

  1. Recent Advances in Theoretical and Computational Modeling of Composite Materials and Structures, Applied Sciences [ISSN: 2076-3417] (2019-2020). [11 papers]

https://www.mdpi.com/journal/applsci/special_issues/Theoretical_and_Computational_Modeling

  1. Feature Papers in Journal of Composites Science in 2020, Journal of Composites Science [ISSN: 2504-477X] (2019-2020). [36 papers]

https://www.mdpi.com/journal/jcs/special_issues/jcs_feature_papers_2020

  1. Feature Papers in Journal of Composites Science in 2021, Journal of Composites Science [ISSN: 2504-477X] (2020-2021). [35 papers]

https://www.mdpi.com/journal/jcs/special_issues/jcs_feature_papers_2020

  1. Structural Dynamics and Vibration Control, Vibration [ISSN: 2571-631X] (2020-2021). [4 papers]

https://www.mdpi.com/journal/vibration/special_issues/Structural_Dynamics_and_Vibration_Control

  1. Theoretical and Computational Modeling of Advanced Materials and Structures, CMES [ISSN: 1526-1492] (2021-2022).

https://www.techscience.com/CMES/special_detail/struc

  1. Advanced Theoretical and Computational Methods for Complex Materials and Structures (Volume 2), Applied Sciences [ISSN: 2076-3417] (2021-2022).

https://www.mdpi.com/journal/applsci/special_issues/complex_materials_v2

  1. 5th Anniversary of Nanotechnology and Applied Nanosciences Section - Recent Advances in Carbon Composites and Complex Materials, Applied Sciences [ISSN: 2076-3417] (2021-2022).

https://www.mdpi.com/journal/applsci/special_issues/5th_Anniversary_Nano

 

2.4.4  Member of the Editorial Board of International Journals

- Member of the Editorial Board of the following journals:

  1. Annals of Applied Sciences (September 2021 – Today).
  2. Journal of Engineering and Fundamental Research (April 2021 – Today).
  3. World Journal of Textile Engineering and Technology (April 2021 – Today).
  4. Journal of Basic & Applied Sciences (April 2021 – Today).
  5. Frontiers in Built Environment (September 2020 – Today).
  6. Advances in Environmental and Engineering Research (April 2020 – Today).
  7. Journal of Physics and Advanced Applications (April 2020 – Today).
  8. Journal of Civil Engineering Inter Disciplinaries (April 2020 – Today).
  9. Journal of Advances in Applied & Computational Mathematics (March 2020 – Today).
  10. Journal of Mineral, Metal and Material Engineering (March 2020 – Today).
  11. International Journal of Architectural Engineering Technology (February 2020 – Today).
  12. Journal of Computation and Artificial Intelligence in Mechanics and Biomechanics (February 2020 – Today).
  13. African Journal of Engineering Science and Technology (February 2020 – Today).
  14. General Chemistry (December 2019 – Today).
  15. Materials International (November 2019 – Today).
  16. Advanced Materials Science and Technology (October 2019 – Today).
  17. Journal of Civil Engineering and Materials Application (September 2019 – Today).
  18. Research and Application of Materials Science (September 2019 – Today).
  19. International Journal of Recent Advances in Mechanical Engineering (September 2019 – Today).
  20. Composite Materials and Engineering (April 2019 – Today).
  21. Eureka: Physics and Engineering (April 2019 – Today).
  22. Molecules (April 2019 – Today).
  23. Nanomaterials (April 2019 – Today).
  24. Emerging Science Journal (January 2019 – Today).
  25. Composite Materials Research (January 2019 – Today).
  26. Mechanics of Advanced Composite Structures (January 2019 – Today).
  27. Science and Engineering of Composite Materials (December 2018 – Today).
  28. Journal of Modern Mechanical Engineering and Technology (October 2018 – Today).
  29. Open Engineering (October 2018 – Today).
  30. International Journal of Engineering, Mathematics and Physics (September 2018 – Today).
  31. Applied Sciences (August 2018 – Today).
  32. Sci - Open Access Journal (August 2018 – Today).
  33. ALKU Journal of Science (August 2018 – Today).
  34. Eastern-European Journal of Enterprise Technologies (July 2018 – Today).
  35. Modern Materials Science and Technology (June 2018 – Today).
  36. Journal of Engineering (2017 – Today).
  37. International Journal of Engineering and Applied Sciences (2017 – Today).
  38. Composite Structures (2016 – Today).
  39. Technologies (2016 – Today).
  40. Journal of Applied and Computational Mechanics (2016 – Today).
  41. Journal of Composites Science (2016 – Today).
  42. Advanced Materials and Technologies (2015 – Today).
  43. Heliyon (2014 – Today).
  44. International Scholarly Research Notices (2014 – Today).
  45. Mathematical Problems in Engineering (2014 – Today).
  46. ISRN Mechanical Engineering (2013 – 2017).
  47. Journal of Computational Engineering (2013 – 2017).
  48. Advances in Aircraft and Spacecraft Science (2014 – 2016).

 

2.4.5  Reviewer for International Journals

  1. Abstract and Applied Analysis
  2. Acta Astronautica
  3. Acta Mechanica
  4. Acta Polytechnica
  5. Active and Passive Electronic Components
  6. Actuators
  7. Advances in Acoustics and Vibration
  8. Advances in Applied Mathematics and Mechanics
  9. Advances in Civil Engineering
  10. Advances in Computational Design
  11. Advances in Engineering Software
  12. Advances in Materials Science and Engineering
  13. Advances in Mathematical Physics
  14. Advances in Mechanical Engineering
  15. Advances in Nano Research
  16. Advances in Polymer Technology
  17. Advances in Structural Engineering
  18. Advances in Technology Innovation
  19. Aerospace Science and Technology
  20. Aerotecnica Missili e Spazio
  21. AIAA Journal
  22. Ain Shams Engineering Journal
  23. AIP Advances
  24. Aircraft Engineering and Aerospace Technology
  25. American Journal of Analytical Chemistry
  26. American Journal of Engineering and Applied Sciences
  27. American Society of Agricultural and Biological Engineers
  28. Annals of Solid and Structural Mechanics
  29. Applied Acoustics
  30. Applied and Computational Mechanics
  31. Applied Mathematical Modelling
  32. Applied Mathematics and Computation
  33. Applied Mathematics and Mechanics
  34. Applied Mathematics Letters
  35. Applied Mechanics Reviews
  36. Applied Physics A
  37. Applied Polymer Science
  38. Applied Science
  39. Applied System Innovation
  40. Archive of Applied Mechanics
  41. Archive of Mechanical Engineering
  42. Archives of Civil and Mechanical Engineering
  43. Archives of Computational Methods in Engineering
  44. Archives of Mechanics
  45. Archives of Trauma Research
  46. Asian Research Journal of Mathematics
  47. Automatika
  48. Batteries
  49. Biomaterials and Biomedical Engineering
  50. Biomechanics and Modeling in Mechanobiology
  51. British Journal of Mathematics and Computer Science
  52. Carbon Trends
  53. Chaos Solitons and Fractals
  54. Chinese Journal of Aeronautics
  55. Ciência and Tecnologia dos Materiais
  56. CMES
  57. Coatings
  58. Cogent Engineering
  59. Communications in Nonlinear Science and Numerical Simulation
  60. Composite Interfaces
  61. Composite Materials and Engineering
  62. Composite Structures
  63. Composites Communications
  64. Composites Part A
  65. Composites Part B
  66. Composites Science and Technology
  67. Computational and Applied Mathematics
  68. Computational and Mathematical Methods in Medicine
  69. Computational and Nonlinear Dynamics
  70. Computational Engineering and Physical Modeling
  71. Computational Materials Science
  72. Computational Methods in Engineering Science and Mechanics
  73. Computers and Concrete
  74. Computer and Structures
  75. Computer and Mathematics with Applications
  76. Computer Applications in Engineering Education
  77. Computer Methods in Applied Mechanics and Engineering
  78. Computer Modeling for Engineering and Sciences
  79. Construction and Building Materials
  80. Continuum Mechanics and Thermodynamics
  81. Defence Technology
  82. Dynamics and Vibroacoustics
  83. Earthquake Engineering and Engineering Vibration
  84. Earthquakes and Structures
  85. Engineering Analysis with Boundary Elements
  86. Engineering Applications of Computational Fluid Mechanics
  87. Engineering Computations
  88. Engineering Failure Analysis
  89. Engineering Fracture Mechanics
  90. Engineering Journals
  91. Engineering Reports
  92. Engineering Science and Technology
  93. Engineering Structures
  94. Engineering Structures and Materials
  95. Engineering with Computers
  96. Entropy
  97. Environmental Engineering and Management Journal
  98. European Journal of Mechanics A/Solids
  99. European Journal of Pure and Applied Mathematics
  100. Evolutionary Intelligence
  101. Experimental Mechanics
  102. Finite Elements in Analysis and Design
  103. Frontiers in Built Environment
  104. Frontiers of Mechanical Engineering
  105. Geomechanics and Engineering
  106. Geomechanics and Geoengineering
  107. Heliyon
  108. High Temperature Materials and Processes
  109. Holzforschung - International Journal of the Biology, Chemistry, Physics and Technology of Wood
  110. IEEE Access
  111. IEEE Transactions on Systems, Man and Cybernetics
  112. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control
  113. Indian Journal of Engineering and Materials Sciences
  114. Indian Journal of Physics
  115. International Journal for Computational Methods in Engineering Science & Mechanics
  116. International Journal for Multiscale Computational Engineering
  117. International Journal for Numerical Methods in Engineering
  118. International Journal of Acoustics and Vibration
  119. International Journal of Advanced and Applied Sciences
  120. International Journal of Advanced Structural Engineering
  121. International Journal of Aeronautical and Space Sciences
  122. International Journal of Aerospace Engineering
  123. Journal of Advances in Applied & Computational Mathematics
  124. International Journal of Applied Electromagnetics and Mechanics
  125. International Journal of Applied Mechanics
  126. International Journal of Computational Materials Science and Engineering
  127. International Journal of Computational Methods
  128. International Journal of Computer Integrated Manufacturing
  129. International Journal of Damage Mechanics
  130. International Journal of Differential Equations
  131. International Journal of Educational Technology in Higher Education
  132. International Journal of Engineering Science and Technology
  133. International Journal of Mathematics and Mathematical Sciences
  134. International Journal of Mechanical and Materials Engineering
  135. International Journal of Mechanical Sciences
  136. International Journal of Mechanics and Control
  137. International Journal of Mechanics and Materials in Design
  138. International Journal of Non-Linear Mechanics
  139. International Journal of Pressure Vessels and Piping
  140. International Journal of Recent Advances in Mechanical Engineering
  141. International Journal of Rotating Machinery
  142. International Journal of Smart and Nano Materials
  143. International Journal of Solids and Structures
  144. International Journal of Structural Stability and Dynamics
  145. International Journal of Thermal Sciences
  146. International Journal of Vehicle Noise and Vibration
  147. International Review of Mechanical Engineering
  148. Inverse Problems in Science and Engineering
  149. Iranian Journal of Science and Technology Transactions A Science
  150. Iranian Journal of Science and Technology Transactions of Mechanical Engineering
  151. International Scholarly Research Notices
  152. Journal of Aeronautics and Aerospace Engineering
  153. Journal of Aerospace Engineering
  154. Journal of Aircraft and Spacecraft Technology
  155. Journal of Applied Analysis
  156. Journal of Applied and Computational Mechanics
  157. Journal of Applied Mechanical Engineering
  158. Journal of Applied Mechanics
  159. Journal of Bionic Engineering
  160. Journal of Civil and Environmental Engineering
  161. Journal of Composite Materials
  162. Journal of Computational Acoustics
  163. Journal of Computational and Applied Mathematics
  164. Journal of Computational and Nonlinear Dynamics
  165. Journal of Computational Engineering and Physical Modeling
  166. Journal of Computational Design and Engineering
  167. Journal of Computational Science
  168. Journal of Constructional Steel Research
  169. Journal of Control and Decision
  170. Journal of Electromagnetic Waves and Applications
  171. Journal of Engineering
  172. Journal of Engineering and Applied Sciences
  173. Journal of Engineering and Technological Sciences
  174. Journal of Engineering Mathematics
  175. Journal of Engineering Mechanics
  176. Journal of Experimental and Theoretical Artificial Intelligence
  177. Journal of Fluids and Structures
  178. Journal of Function Spaces
  179. Journal of Low Frequency Noise, Vibration & Active Control
  180. Journal of Industrial Textiles
  181. Journal of Intelligent Material Systems and Structures
  182. Journal of Manufacturing Processes
  183. Journal of Marine Science and Engineering
  184. Journal of Materials
  185. Journal of Materials Design and Applications
  186. Journal of Mathematics
  187. Journal of Mechanical Engineering Science
  188. Journal of Mechanical Science and Technology
  189. Journal of Mechanics
  190. Journal of Mechanics of Materials and Structures
  191. Journal of Ocean Engineering and Science
  192. Journal of Physics and Chemistry of Solids
  193. Journal of Polymer Engineering
  194. Journal of Polymer Research
  195. Journal of Sandwich Structures and Materials
  196. Journal of Science and Technology
  197. Journal of Shanghai Jiao Tong University (Science)
  198. Journal of Solids Mechanics
  199. Journal of Sound and Vibration
  200. Journal of Statistics and Mathematical Sciences
  201. Journal of Structures
  202. Journal of Testing and Evaluation
  203. Journal of Textile Science & Engineering
  204. Journal of the Brazilian Society of Mechanical Sciences and Engineering
  205. Journal of the Institution of Engineers (India) Series C
  206. Journal of the Mechanical Behavior of Materials
  207. Journal of Thermal Stress
  208. Journal of Thermoplastic Composite Materials
  209. Journal of Vibration and Acoustics
  210. Journal of Vibration and Control
  211. Journal of Zhejiang University Science A
  212. Latin American Journal of Solids and Structures
  213. Light: Advanced Manufacturing
  214. Karbala International Journal of Modern Science
  215. KSCE Journal of Civil Engineering
  216. Material Science and Engineering Technology
  217. Materials
  218. Materials and Design
  219. Materials and Structures
  220. Materials Characterization
  221. Materials Performance and Characterization
  222. Materials Research
  223. Materials Today Communications
  224. Materials Science
  225. Mathematical Biosciences and Engineering
  226. Mathematical Methods in Applied Sciences
  227. Mathematical Problems in Engineering
  228. Mathematics
  229. Measurement
  230. Measurement Science Review
  231. Meccanica
  232. Mechanical Sciences
  233. Mechanical Systems and Signal Processing
  234. Mechanics Based Design of Structures and Machines
  235. Mechanics of Advanced Composite Structures
  236. Mechanics of Advanced Material and Structures
  237. Mechanics of Materials
  238. Mechanics Research Communications
  239. Metals and Materials
  240. Micro and Nano Letters
  241. Micromachines
  242. Microscopy Research and Technique
  243. Microsystem Technologies
  244. Modelling and Simulation in Engineering
  245. Molecules
  246. Multidiscipline Modeling in Materials and Structures
  247. Nanomaterials
  248. Nonlinear Dynamics
  249. Nonlinear Engineering
  250. Nonlinear Engineering. Modeling and Application
  251. Numerical Algorithms
  252. Ocean Engineering
  253. Open Journal of Composite Materials
  254. Optics and Lasers in Engineering
  255. Periodica Polytechnica Mechanical Engineering
  256. Physica E
  257. Physica Scripta
  258. Physica Status Solidi A: Applications and Materials Science
  259. Plos One
  260. Polymer Composites
  261. Polymer Testing
  262. Polymers
  263. Probabilistic Engineering Mechanics
  264. Procedia Engineering
  265. Proceeding Review
  266. Proceedings of the Royal Siciety A
  267. Radiation Physics and Chemistry
  268. Research on Engineering Structures and Materials
  269. Results in Physics
  270. Reviews on Advanced Materials Science
  271. Royal Society Open Science
  272. Sadhana - Academy Proceedings in Engineering Science
  273. Science and Engineering of Composite Materials
  274. Science Progress
  275. Scientia Iranica
  276. Scientific Reports
  277. Scientific Research
  278. Shock and Vibration
  279. Simulation Modelling Practice and Theory
  280. Smart Materials and Structures
  281. Smart Structures and Systems
  282. Soils and Foundations
  283. Songklanakarin Journal of Science and Technology
  284. Springer Nature Applied Sciences
  285. Springer Plus
  286. Steel and Composite Structures
  287. Structural and Multidisciplinary Optimization
  288. Structural Engineering and Mechanics
  289. Sustainability
  290. Technical Sciences
  291. Technologies
  292. The Arabian Journal for Science and Engineering
  293. The European Physical Journal Plus
  294. The Open Civil Engineering Journal
  295. Theoretical and Applied Fracture Mechanics
  296. Theoretical and Applied Mechanics Letters
  297. Thermal Science and Engineering Progress
  298. Thin Solid Films
  299. Thin-Walled Structures
  300. Transactions of the Canadian Society for Mechanical Engineering
  301. Transactions on Industrial Electronics
  302. Wave Motion
  303. Waves in Random and Complex Media
  304. World Journal of Engineering
  305. ZAMM - Zeitschrift fuer Angewandte Mathematik und Mechanik

 

Overall reviews done since 2009 up to Today

  • reviews 2009: 2
  • reviews 2011: 1
  • reviews 2012: 48
  • reviews 2013: 81
  • reviews 2014: 154
  • reviews 2015: 149
  • reviews 2016: 306
  • reviews 2017: 319
  • reviews 2018: 391
  • reviews 2019: 427
  • reviews 2020: 416
  • reviews 2021: 501
  • reviews 2022: 24 (up to date)

Overall reviews done: 2847

 

2.4.6  Reviewer for Research Projects and VQR-ANVUR

Reviewer for PRIN Projects - MIUR (2014 - Today).

Reviewer for VQR-ANVUR (VQR 2015-2019).

 

2.4.7  Reviewer for International Book Proposals

Reviewer for 4 Book Proposal for Wiley, Elsevier, IOP Science, World Scientific.

 

2.4.8  Reviewer for PhD Theses

Reviewer for PhD Theses:

  1. N. Ahlawat, Some Problems on Vibration of Circular FGM Plates, Indian Istitute of Technolgy Roorkee, 2016.
  2. M. Biswal, Vibration, Buckling and Dynamic Stability of Laminated Composite Curved Panels in Hygrothermal Environment, National Institute of Technology Roukela, 2016.
  3. G. Imbalzano, Modelling and Experimental Study of Auxetic Sandwich Structures for Protection Against Impact and Blast Loadings, The University of Melbourne, 2018.
  4. D. Belmonte, Model Based Correlation Methods for Faults Detection and Identification Algorithms on Electromechanical Actuators Used in Primary Flight Control Systems, Politecnico di Torino, 2019.
  5. C. Ferro, Multidisciplinary Analysis of a Novel Anti-Icing System for a Fixed Wing UAV, Politecnico di Torino, 2019.
  6. A. Urraci, Development of accurate and efficient structural models for analysis of multilayered and sandwich structures of industrial interest, Politecnico di Torino, 2019.
  7. G. Nitti, Static, Dynamic, and Stability Analysis of High-rise Buildings, Politecnico di Torino, 2020.
  8. R. Saini, Numerical Solution of Some Vibration Problems of FGM Circular Plates under Thermal Environment,  Indian Istitute of Technolgy Roorkee, 2020.
  9. C. Dangi, Numerical Solution of Some Problems on Static and Dynamic Behaviour of FGM Nanostructures under Complicating Effects, Indian Istitute of Technolgy Roorkee, 2021.
  10.  P.C. Berri, Design and Development of Algorithms and Technologies Applied to Prognostics of Aerospace Systems, Politecnico di Torino, 2021.

 

2.5  Partecipation to Research Projects

Partecipation to the National Scientific Research Program (PRIN2007) entitled: “Numerical Modelling of Ultrasonic Guided Wave in Composites Multilayered Bonded Structures”. Request of co-financing (DM n. 1175, 18 september 2007) Year 2007, Prot. 2007SZSZ7L_002. Scientific Coordinator: Prof. Maiorana Carmelo. Manager of the Research Unit: Prof. Erasmo Viola.

 

“SIR” Program, Order 23 January 2014 prot. N. 197. Protocol: RBSI144U0. Magneto-Piezo-Thermo-Elastic Composite Cracked Plate and Shell Models Applied to Aerospace, Naval, Civil and Mechanical Engineering Using a Higher-Order Unified Formulation. Principal Investigator: Nicholas Fantuzzi, Alma Mater Studiorum University of Bologna. Permanent employees: Erasmo Viola, Francesco Tornabene, Alma Mater Studiorum University of Bologna. (Not Financed).

 

Principal Investigator of the National Scientific Research Program (PRIN2015) entitled: “3D Printing Manufacturing Technology for Advanced FGM and Composite Structures used in Aerospace, Civil and Mechanical Engineering: Numerical and Experimental Analyses”. Request of financing (DD n. 2488, 4 november 2015) Anno 2015, Prot. 2015ZTBH32. Coordinatore Scientifico: Prof. Francesco Tornabene. Manager of the Research Unit: Prof. Francesco Tornabene. (Not Financed).

 

Principal Investigator and Beneficiary of FFABR2017 - ANVUR n. 20/2017, 15 June 2017. Scientific Coordinator: Prof. Francesco Tornabene. Manager of the Research Unit: Prof. Francesco Tornabene.

 

Principal Investigator of the National Scientific Research Program (PRIN2017) entitled: Mechanical properties and Experimental and Numerical analysis of doubly-curved free-form Structures manufactured by MEANS of 3D printed fused deposition modelling technology – byMEANSof3D”. Request of financing (DD n. 3728, 27 December 2017) Year 2017, Prot. 2017YPYTER. Scientific Coordinator: Prof. Francesco Tornabene. Manager of the Research Unit: Prof. Francesco Tornabene. (Admitted but Not Financed).

 

2.6  Partecipation to Contracts and Agreements

Agreement between Tacchificio Monti and University of Bologna. Assistance to the rearrangement of the manufacturing proced with reference to the precautionary process, simulation of tests for the verification of the products and introduction of an ERP system for the correct management of the company resources.

 

2.7  Organizing Activities

Invited Charmian and Session Organizer

  1. ICMNMMCS2012, International Conference on Mechanics of Nano, Micro and Macro Composite Structures, 18-20 June 2012, Torino, Italy.

http://paginas.fe.up.pt/~icnmmcs/welcome.html

  1. ICCS17, 17th International Conference on Composite Structures, 17-21 June 2013, Porto, Portugal.

http://paginas.fe.up.pt/~iccs17

  1. AIMETA2013, XXI° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata, 17-20 September 2013, Torino, Italy.

http://www.aimeta.dicam.unibo.it/sites/www.aimeta.dicam.unibo.it/files/static/www.aimetatorino2013.it/it/default2c3f.html?PID=1

  1. MECHCOMP, 1st International Conference on Mechanics of Composites, 8-12 June 2014, Stony Brook, USA.

https://sites.google.com/site/mechcomp2014

  1. ICCM2017, 8th International Conference on Computational Methods, 25-29 July 2017, Guilin, Guangxi, China.

http://www.sci-en-tech.com/ICCM/index.php/iccm2017/2017

  1. ICCM2018, 9th International Conference on Computational Methods, 6-10 August 2018, Rome, Italy.

http://www.sci-en-tech.com/ICCM/index.php/iccm2018/2018

  1. ICoNSoM2019, International Conference on Nonlinear Solid Mechanics, 16-19 June 2019, Roma, Italy.

http://www.memocsevents.eu/iconsom2019

  1. WCCM2020, XIV World Congress on Computational Mechanics, 19-24 July 2020, Paris, France.

https://www.wccm-eccomas2020.org

Scientific Committee Member

  1. CACMSIstanbul2015, 1st International Conference on Advances in Composite Materials and Structures, 13-15 April 2015, Istanbul, Turkey.

https://sites.google.com/site/cacmsistanbul2015

  1. CACMSSaoPaulo2016, 2nd International Conference on Advances in Composite Materials and Structures, 25-27 April 2016, Säo Paulo, Brazil.

https://sites.google.com/a/gcloud.fe.up.pt/compositessaopaulo2016

  1. ICCS18, 18th International Conference on Composite Structures, 15-19 June 2015, Lisbon, Portugal.

http://events.mercatura.pt/iccs18

  1. ICCS19, 19th International Conference on Composite Structures, 9-11 September 2016, Porto, Portugal.

http://events.mercatura.pt/iccs19

  1. SSTA2017, 11th International Conference on Shell Structures, Theory and Applications, 11-13 October 2017, Poland, Gdansk.

http://wilis.pg.edu.pl/ssta/welcome

  1. ICCMS2017, International Conference on Composite Materials and Structures, 27-29 December 2017, Hyderabad, India.

http://www.iccms2017hyd.com

  1. MECHCOMP4, 4th International Conference on Mechanics of Composites, 9-12 July 2018, Madrid, Spain.

https://sites.google.com/a/gcloud.fe.up.pt/mechcomp2018madrid

  1. ICTWS2018, International Conference on Thin Walled Structures, 24-27 July 2018, Lisbon, Portugal.

http://ictws2018.ist.utl.pt

  1. ICCM2018, 9th International Conference on Computational Methods, 6-10 August 2018, Rome, Italy.

http://www.sci-en-tech.com/ICCM/index.php/ICCM2018/ICCM2018

  1. SYMCOMP2019, 4th International Conference on Numerical and Symbolic Computation Developments and Applications, 11-12 April 2019, Porto, Portugal.

http://symcomp2019.dem.isel.pt/

  1. DSTA2019, 15th International Conference on “Dynamical Systems - Theory and Applications”, 2-5 December 2019, Lodz, Poland.

https://www.dys-ta.com/

  1. MECHCOMP5, 5th International Conference on Mechanics of Composites, 1-4 July 2019, Lisbon, Portugal.

http://mechcompconference2019.com/

  1. ICCS22, 22th International Conference on Composite Structures, 31 October - 3 November 2019, Wuhan, China.

http://www.conference-announcement.com/meetting.asp?cid=553&id=14

  1. ICCS23, 23th International Conference on Composite Structures, 15-18 June 2020, Porto, Portugal.

https://events.unibo.it/iccs23

  1. MDA2020, 3rd International Conference on Materials Design and Applications, 25-26 June 2020, Porto, Portugal.

www.fe.up.pt/mda2020

  1. GCMSE2020, Global Conference on Materials Science & Engineering, 6-7 August 2020, San Antonio, USA.

https://www.pagesconferences.com/materialscience-engineering-congress

  1. NCMMM-2020, 1st National Conference on Materials, Mechanics and Modelling, 29-30 August 2020, Jamshedpur, India.

https://sites.google.com/a/nitjsr.ac.in/ncmmm-2020/

  1. MECHCOMP6, 6th International Conference on Mechanics of Composites, 1-4 September 2020, Porto, Portugal.
  2. LIMAS 2020, 3rd International Conference on Lightweight Materials & Engineering Structures, 22-23 October 2020, Glasgow, United Kingdom.

http://www.asranet.co.uk/Conferences/LIMAS2020

  1. MEC2020, 4th International Conference on Trends in Mechanical Engineering, 24-25 October 2020, Dubai, UAE.

https://csen2020.org/mec

  1. I-Gem 2021, 5th International Conference on Geoscience, Energy and Materials, 11-13 January 2021, Kuala Lumpur, Malaysia.

http://gem-conference.org/

  1. SYMCOMP2021, 5th International Conference on Numerical and Symbolic Computation Developments and Applications, 25-26 March 2021, Évora, Portugal.

http://symcomp2021.dem.isel.pt/

  1. MEC2021, 5th International Conference on Trends in Mechanical Engineering, 19-20 June 2021, Copenhagen, Denmark.

https://ccsea2021.org/mec

  1. ICCS24, 24th International Conference on Composite Structures, 5-8 July 2021, Madrid, Spain.

https://hello.last2ticket.com/event/2794

  1. MECHCOMP7, 7th International Conference on Mechanics of Composites, 7-10 September 2021, Lisbon, Portugal.

https://eventi.unibo.it/mechcomp7

  1. ICGSAME-2021, First International Conference on Geotechnical, Structural and Advanced Materials Engineering: From Research to Practic, 5-7 December 2021, University of Biskra, Algeria.
  2. MDA2022, 4th International Conference on Materials Design and Applications, 7-8 July 2022, Porto, Portugal.

www.fe.up.pt/mda2020

  1. GECAET-22, Global Experts Conference on Applied Science, Engineering and Technology, 23-25 June 2022, Amsterdam, Netherlands.

https://www.mscholarconferences.com/20/18/home.html

  1. ICoNSoM2022, 2nd International Conference on Nonlinear Solid Mechanics, 13-16 June 2022, Alghero, Italy.

http://www.memocsevents.eu/iconsom2022/

  1. GECMSE-22, 2nd Global Experts Conference on Materials Science and Engineering, 16-18 June 2022, Rome, Italy.

https://www.mscholarconferences.com/GECMSE2/7/home.html

Local Organizer

  1. ICCS19, 19th International Conference on Composite Structures, 9-11 September 2016, Porto, Portugal.

http://events.mercatura.pt/iccs19

  1. ICCM2018, 9th International Conference on Computational Methods, 6-10 August 2018, Rome, Italy.

http://www.sci-en-tech.com/ICCM/index.php/iccm2018/2018

Co-Chair

  1. SPB2015, International Conference on Shells, Plates and Beams, 9-11 September 2015, Bologna, Italy.

http://www.spb2015.dicam.unibo.it

  1. MECHCOMP2, 2nd International Conference on Mechanics of Composites, 11-14 July 2016, Porto, Portugal.

http://events.mercatura.pt/MechComp2016

  1. MECHCOMP3, 3nd International Conference on Mechanics of Composites, 4-7 July 2017, Bologna, Italy.

https://events.unibo.it/mechcomp3

  1. ICCS20, 20th International Conference on Composite Structures, 4-7 September 2017, Paris, France.

https://events.unibo.it/iccs20

  1. ICCS21, 21th International Conference on Composite Structures, 4-7 September 2018, Bologna, Italy.

https://events.unibo.it/iccs21

  1. MSET22, Materials Science, Engineering & Technology, 10-12 August 2022, Paris, France.

https://msiconference.com/france-2022

Mini-Symposium Organizer

  1. Computational Methods for Shell Structures in AIMETA2013, XXI° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata, 17-20 September 2013, Torino, Italy.

http://www.aimeta.dicam.unibo.it/sites/www.aimeta.dicam.unibo.it/files/static/www.aimetatorino2013.it/it/default2c3f.html?PID=1

  1. Advanced Computational Methods for the Mechanical Modeling of Materials and Structures in ICCM2017, 8th International Conference on Computational Methods, 25-29 July 2017, Guilin, Guangxi, China.

http://www.sci-en-tech.com/ICCM/index.php/iccm2017/2017

  1. Advanced Modelling of Composite Materials and Structures in ICCM2018, 9th International Conference on Computational Methods, 6-10 August 2018, Rome, Italy.

http://www.sci-en-tech.com/ICCM/index.php/iccm2018/2018

  1. Advanced Mechanical Modeling of Composite Materials and Structures in ICoNSoM2019, International Conference on Nonlinear Solid Mechanics, 16-19 June 2019, Rome, Italy. [11 Presentations].

http://www.memocsevents.eu/iconsom2019

  1. Advanced Modeling of Complex Materials and Structures in WCCM2020, 14th World Congress in Computational Mechanics (WCCM XIV), 19-24 July 2020, Paris, France. [17 Presentations].

https://www.wccm-eccomas2020.org

Plenary Lectures

  1. Higher-order Formulations for the Mechanical Analysis of Doubly-Curved Shell Structures Made of Advanced and Innovative Materials in 21th International Conference on Composite Structures, 4-7 September 2018, Bologna, Italy.

https://events.unibo.it/iccs21

Webinars & Lectures

  1. Higher-order Strong and Weak Formulations for the Mechanical Modeling of Arbitrarily Shaped Doubly-Curved Shell Structures Made of Anisotropic and Advanced Materials in "IAAM Scientists Fellow Lecture 2020" in the Advanced Materials Lecture Series, 30 July 2020, 11.00 AM CEST.

https://zoom.us/j/99710219898?pwd=cEFEVXh1bTF0UlliT0hZN29ieFp0UT09

  1. Advanced Mechanical Modeling of Nanomaterials and Nanostructures (1st webinar) in the Nanomaterials Webinars 2020, 16 October 2020, 11.00 AM CEST.

https://nanomaterials-1.sciforum.net/

  1. Advanced Mechanical Modeling of Nanomaterials and Nanostructures (2nd webinar) in the Nanomaterials Webinars 2020, 30 October 2020, 11.00 AM CEST.

https://nanomaterials-2.sciforum.net/

  1. Mechanics of Arbitrarily Shaped Doubly-Curved Shell Structures Made of Anisotropic and Advanced Materials Using Higher-order Strong and Weak Formulations in Sabanci University Integrated Manufacturing Research and Application Center (SU-IMC) Integrated Manufacturing Webinar Series, 11 November 2020, 11.30 AM CEST.

https://gazetesu.sabanciuniv.edu/en/society-and-science/su-imc-thematic-webinar-seriess-new-guest-francesco-tornabene

 

2.8  Institutional Roles

  • Vice-President of Didactic Council of Civil Engineering at Department of Innovation Engineering, University of Salento.
  • Member of the Group of Experts in Modeling and Simulation at the Univeristy of Salento for GTI – Ministry of Defense (June 2020 – now).
  • Member of the Civil Engineering Review Group at the University of Salento (June 2019 – now).
  • Member of the Evaluation Commission for Individual Preparation for Admission to the Master's Degree Course in Civil Engineering at the University of Salento (December 2019, March 2019).
  • Member of the Internship Committee for the Degree in Civil Engineering at the School of Engineering of the Alma Mater Studiorum - University of Bologna (2013 – 2018).
  • Member of the Admission Committee at the School of Engineering of the Alma Mater Studiorum - University of Bologna (2012 – 2018).
  • Delegate of the Degree in Civil Engineering for the International Student Mobility at the School of Engineering of the Alma Mater Studiorum - University of Bologna (2013 – 2018).

 

2.9  Professor Doctorate Boarding, Committee of Doctorate and Research Grant

  • Member of the Committee of Doctorate in Aerospace Engineering, a.y. 2013/2014 (September 2014) at the Politecnico of Milano.
  • Member of the Committee for the evaluation of the candidates for a Research Grant established by DICAM Department (December 2014) entitled: Smart Manufacturing: Design of plastic container for Beverages.
  • Member of the Committee of Doctorate in Science, Technologies and Space Measure XXVIII Cycle (April 2016) at the University of Padova.
  • Member of the Committee of Doctorate in Structural Engineering XXVIII Cycle (May 2016) at the Politecnico of Torino.
  • Member of the Committee of Doctorate in Arospace Engineering XXXI Cycle (Luglio 2019) at the Politecnico of Torino.
  • Member of the Professor Doctorate Boarding in Civil, Chemical, Environmental and Materials Engineering XXXIII Cycle (April 2017), XXXIV Cycle (February 2018), XXXV Cycle (February 2019), XXXVI Cycle (March 2020) at the Alma Mater Studiorum - University of Bologna.
  • Member of the Professor Doctorate Boarding in Material, Structure and Nanotechnology Engineering  XXXVII Cycle (April 2021) at the University of Salento.

 

2.10  Bibliometric Indices

The research activity includes 198 papers published in prestigious international journal, with a great impact within the international scientific community. In a relative short lapse of time (2004-2022), indeed, the published papers have received more than 10571 citations included in more than 3472 papers published in international journals, whereby the h-index (= number of papers cited at least h times) of Prof. Francesco Tornabene is equal to 64 up to date.

 

  • Scopus: Author ID 6507489062: 198 Articles, 10571 Citations, h-index=64;
  • ISI Web of Knowledge ResearcherID: E-4789-2012: 194 Articles, 9777 Citations, h-index=60;
  • Google Scholar: 293 Articles, 12524 Citations, h-index=69, h10-index=173.

 

Databases e Research Scores

Scopus Profile: https://www.scopus.com/authid/detail.uri?authorId=6507489062

ISI Web of Knowledge Profile: http://www.researcherid.com/rid/E-4789-2012

Google Scholar Profile: https://scholar.google.it/citations?user=1USOLEAAAAAJ&hl=it

OrcID Profile: http://orcid.org/0000-0002-5968-3382

ResearchGate Profile: https://www.researchgate.net/profile/Francesco_Tornabene

Publons Profile: https://publons.com/author/1171215/francesco-tornabene#profile

Accademia Profile: https://unibo.academia.edu/FrancescoTornabene

Mendely Profile: https://www.mendeley.com/profiles/francesco-tornabene

Loop Profile: https://loop.frontiersin.org/people/515140/overview

Kudos Profile: https://www.growkudos.com/profile/francesco_tornabene

Sciprofiles: https://sciprofiles.com/profile/francescotornabene

 

Top Italian Scientists List

Inserted in the Top Italian Scientists List: Engineering Area, position 31th.

http://www.topitalianscientists.org/TIS_HTML/Top_Italian_Scientists_Engineering.htm

 

100000 Top Scientists List (2019)

Inserted in the 100000 Top Scientists List: Ioannidis JPA, Baas J, Klavans R, Boyack KW (2019), A Standardized Citation Metrics Author Database Annotated for Scientific Field, PLoS Biol 17(8): e3000384.

https://doi.org/10.1371/journal.pbio.3000384

Abstract

Citation metrics are widely used and misused. We have created a publicly available database of 100,000 top scientists that provides standardized information on citations, h-index, coauthorship-adjusted hm-index, citations to papers in different authorship positions, and a composite indicator. Separate data are shown for career-long and single-year impact. Metrics with and without self-citations and ratio of citations to citing papers are given. Scientists are classified into 22 scientific fields and 176 subfields. Field- and subfield-specific percentiles are also provided for all scientists who have published at least five papers. Career-long data are updated to end of 2017 and to end of 2018 for comparison.

 

100000 Top Scientists List Update (2020)

Inserted in the 100000 Top Scientists List: Ioannidis JPA, Boyack KW, Baas J (2020), Updated Science-Wide Author Databases of Standardized Citation Indicators, PLoS Biol 18(10): e3000918.

https://doi.org/10.1371/journal.pbio.3000918

100000 Top Scientists List Update (2021)

Inserted in the 100000 Top Scientists List: Baas J, Boyack KW, Ioannidis JPA (2021), August 2021 data-update for “Updated Science-Wide Author Databases of Standardized Citation Indicators”, Mendeley Data, V3.

https://doi.org/10.17632/btchxktzyw.3

 

Highly Cited Researcher 2018

Inserted in the 2018 Highly Cited Researchers List: This list recognizes world-class researchers selected for their exceptional research performance, demonstrated by production of multiple highly cited papers that rank in the top 1% by citations for field and year in Web of Science.

https://clarivate.com/webofsciencegroup/solutions/researcher-recognition/

https://hcr.clarivate.com/wp-content/uploads/2018/12/HCR-2018-Final-12-06-18-Downloadable.xlsx

 

Highly Cited Researcher 2019

Inserted in the 2019 Highly Cited Researchers List: This list recognizes world-class researchers selected for their exceptional research performance, demonstrated by production of multiple highly cited papers that rank in the top 1% by citations for field and year in Web of Science.

https://clarivate.com/webofsciencegroup/solutions/researcher-recognition/

https://recognition.webofscience.com/awards/highly-cited/2019/

 

Highly Cited Researcher 2020

Inserted in the 2019 Highly Cited Researchers List: This list recognizes world-class researchers selected for their exceptional research performance, demonstrated by production of multiple highly cited papers that rank in the top 1% by citations for field and year in Web of Science.

https://clarivate.com/webofsciencegroup/solutions/researcher-recognition/

https://recognition.webofscience.com/awards/highly-cited/2019/

 

3  TEACHING ACTIVITIES

 

3.1  Classes

The teaching activity includes different Classes (Bachelor and Master degrees) at the Faculty of Engineering at the University of Salento and the Alma Mater Studiorum - University of Bologna, together with a large teaching assistantship and thesis tutorship. The various classes belong to the School of Civil Engineering, Architecture and Building Engineering, Energy Engineering, Mechanical Engineering, Aerospace Engineering at the University of Salento and the Alma Mater Studiorum - University of Bologna.

Academic Year 2021-2022

  • Lecturer for the class Biomechanics [SSD ICAR/08] (9 CFU) for the Degree in Biomedical Engineering at the Faculty of Engineering of the University of Salento.
  • Lecturer for the class Computational Mechanics [SSD ICAR/08] (6 CFU) for the Master Degree in Civil Engineering at the Faculty of Engineering of the University of Salento.

Academic Year 2020-2021

  • Lecturer for the class Dynamics of Structures [SSD ICAR/08] (6 CFU) for the Master Degree in Civil Engineering at the Faculty of Engineering of the University of Salento.
  • Lecturer for the class Computational Mechanics [SSD ICAR/08] (6 CFU) for the Master Degree in Civil Engineering at the Faculty of Engineering of the University of Salento.

Academic Years 2018-2019 & 2019-2020

  • Lecturer for the class Structural Mechanics [SSD ICAR/08] (9 CFU) for the Degree in Industrial Engineering (Curriculum: Aerospace) at the Faculty of Engineering of the University of Salento - Located in Brindisi.
  • Lecturer for the class Computational Mechanics [SSD ICAR/08] (6 CFU) for the Master Degree in Civil Engineering at the Faculty of Engineering of the University of Salento.

Academic Years 2014-2015 & 2015-2016 & 2016-2017 & 2017-2018

  • Lecturer for the class Theory of Structures M [SSD ICAR/08] (6 CFU) for the Degrees in Civil Engineering and Architecture and Building Engineering at the School of Engineering and Architecture of the Alma Mater Studiorum - University of Bologna.
  • Lecturer for the class Plates and Shells M [SSD ICAR/08] (6 CFU) for the Degrees in Mechanical Engineering and Energy Engineering at the School of Engineering and Architecture of the Alma Mater Studiorum - University of Bologna.

Academic Year 2013-2014

  • Lecturer for the class Computational Mechanics M [SSD ICAR/08] (6 CFU) for the Degrees in Civil Engineering at the School of Engineering and Architecture of the Alma Mater Studiorum - University of Bologna.

Academic Years 2012-2013 & 2013-2014

  • Lecturer for the classes Dynamics of Structures M [SSD ICAR/08] (6 CFU) for the Degrees in Civil Engineering and Dynamics of Structures with Laboratory [SSD ICAR/08] (8 CFU) for the Degrees in Architecture and Building Engineering at the School of Engineering and Architecture of the Alma Mater Studiorum - University of Bologna.

 

Teaching Assistantship at the School of Engineering and Architecture of the Alma Mater Studiorum - University of Bologna, for the following courses:

  • Theory of Structures, for the Degree in Civil Engineering (Teacher: Prof. Erasmo Viola) a.y. 2005/’06, 2006/’07, 2007/’08, 2012/’13, 2013/’14.
  • Plates and Shells M, for the Degree in Mechanical Engineering (Teacher: Prof. Alessandro Marzani) a.y. 2012/’13
  • Numerical Methods for the Civil Engineering M, for the Degree in Civil Engineering (Teacher: Prof. Fiorella Sgallari) a.y. 2011/’12.
  • Machine Design M, for the Degree in Mechanical Engineering (Teacher: Prof. Francesco Cesari) a.y. 2011/’12.
  • Mechanical Design and Laboratory T C.I., for the Degree in Mechanical Engineering (Prof. Gianni Caligiana) a.y. 2010/’11.
  • Product Engineering M, for the Degree in Mechanical Engineering (Teacher: Prof. Alfredo Liverani) a.y. 2010/’11.
  • Structural Mechanics II, for the Degree in Civil Engineering (V.O.) (Teacher: Prof. Erasmo Viola) a.y. 2003/’04, 2004/’05, 2005/’06, 2006/’07 and 2007/’08.
  • Mechanics of Structure L, for the Degree in Civil Engineering (Teacher: Prof. Erasmo Viola) a.y. 2004/’05, 2005/’06, 2006/’07 and 2007/’08.
  • Structural Mechanics, for the Degree in Architecture and Building Engineering (Teacher: Prof. Erasmo Viola) a.y. 2005/’06, 2006/’07and 2007/’08.
  • Laboratory of Structural Mechanics, for the Degree in Architecture and Building Engineering (Teacher: Prof. Erasmo Viola) a.y. 2005/’06, 2006/’07 and 2007/’08.
  • Structural Mechanics L, for the Degree in Civil Engineering (Teacher: Prof. Antonio Di Leo) a.y. 2005/’06 and 2007/’08.

 

Seminars in Doctorate Courses

During the Doctorate Course of “Mechanics of Structures” at the Faculty of Engineering of the Alma Mater Studiorum - University of Bologna (XXV Cycle - May 2011), Prof. Francesco Tornabene discussed the following seminars:

  • Fundamentals and applications of the Differential Quadrature Method.

During the Doctorate Course in “Aerospace Engineering” at the Politecnico of Torino, due to the invitation of Prof. Erasmo Carrera (May 2011), Prof. Francesco Tornabene discussed the following seminar:

  • 2-D GDQ Solution for Anisotropic Doubly-Curved Shell and Panel Structures. Shear and Normal Stress Recovery via the GDQ Method.

In the Albenga Room of the Department of Structural, Building and Geotechnical Engineering at the Politecnico of Torino, due to the invitation of Prof. Alberto Carpinteri (30 May 2018), Prof. Francesco Tornabene discussed the following seminar:

  • Structural Analysis of Doubly-Curved Shells Made of Innovative Constituents by Means of Higher-order Formulations.

During the Doctorate Course in “Civil, Chimical, Environmental, and Materials Engineering” at the School of Engineering and Architecture of Alma Mater Studiorum - University of Bologna, Prof. Francesco Tornabene proposed as scientific representative the following seminars:

  • Strong Form Finite Elements: Formulation and Applications, given by eng. Nicholas Fantzzi (27 May 2015).
  • Isogeometric Analysis: a CAD-FEM Integration for Interfacial Fracture and Contact Mechanics Problem, given by eng. Rossana Dimitri (24/11/2016).
  • Finite Element Model for Buckling Analysis of Thin-Walled Beam-Type Structures, given by eng. Domagoj Lanc (13/12/2016).
  • Higher-order Strong and Weak Formulations for Arbitrarily Shaped Doubly-Curved Shell Structures, given by eng. Michele Bacciocchi (12 September 2018).

 

3.2  Exam Committee

  • Exam committee from 2014 to 2018, president of the exam committee of Theory of Structures, for the Degree in Civil Engineering at the Faculty of Engineering of Alma Mater Studiorum - University of Bologna.
  • Exam committee from 2014 to 2018, president of the exam committee of Plates and Shells, for the Degree in Mechanical Engineering and Energy Engineering at the Faculty of Engineering of Alma Mater Studiorum - University of Bologna.
  • Exam committee from 2013 to 2014, president of the exam committee of Dynamics of Structures, for the Degree in Civil Engineering and Architecture and Building Engineering at the Faculty of Engineering of Alma Mater Studiorum - University of Bologna.
  • Exam committee from 2013 to 2014, president of the exam committee of Computational Mechanics, for the Degree in Civil Engineering at the Faculty of Engineering of Alma Mater Studiorum - University of Bologna.
  • Exam committee from 2012 to 2014, president of the exam committee of Dynamics of Structures, for the Degree in Civil Engineering and Architecture and Building Engineering at the Faculty of Engineering of Alma Mater Studiorum - University of Bologna.
  • Exam committee from 2012 to 2014, member of the exam committee of Structural Mechanics, for the Degree in Architecture and Building Engineering at the Faculty of Engineering of Alma Mater Studiorum - University of Bologna.
  • Degree committee from 2012 to 2018, member of the exam committee for the Degree and Master Degree in Civil Engineering, Architecture and Building Engineering and Civil Engineering at the Faculty of Engineering of Alma Mater Studiorum - University of Bologna.
  • Degree committee from 2018 to now, member of the exam committee for the Degree and Master Degree in Civil Engineering at the University of Salento.

 

3.3  Advisor of PhD Theses and Scientific Advisor of Research Grants

Supervisor and Thesis Advisor of the following PhD Theses:

  1. M. Bacciocchi (2018) - Higher-Order Strong and Weak Formulations for Arbitrarily Shaped Doubly-Curved Shells Made of Advanced Materials, PhD in “Civil, Chemical, Environmental, and MAterials Engineering”, XXX° Cycle, Alma Mater Studiorum University of Bologna.

Scientific advisor of the following Research Grant won by the candidate:

  1. M. Bacciocchi (2017) - Development of Numerical Methods based on the Strong and Weak Formulations of the Governing Equations for the Mechanical Behavior of Shell Structures Made of Innovative Materials, Research Grant at the DICAM Department (“Civil, Chemical, Environmental, and MAterials Engineering”), Alma Mater Studiorum University of Bologna.

 

3.4  Co-Advisor of PhD Theses

Co-Advisor of the following PhD theses:

  1. N. Fantuzzi (2013) - Generalized Differential Quadrature Finite Element Method Applied to Advanced Structural Mechanics, PhD in “Structural Engineering and Hydraulics”, XXV° Cycle, Alma Mater Studiorum University of Bologna.

 

3.5  Advisor of Theses

Advisor for the following theses:

  1. M. Bacciocchi, Teorie di Ordine Superiore per Strutture a Doppia Curvatura in Materiale Anisotropo, Alma Mater Studiorum - University of Bologna, a.y. 2013/’14.
  2. C. Delle Donne, Elementi Finiti in Forma Forte: Applicazione a Problemi Piani, Alma Mater Studiorum - University of Bologna, a.y. 2013/’14.
  3. E. Galli, Ottimizzazione del Processo Produttivo di Tacchi Mediante Modellazione Numerica, Alma Mater Studiorum - University of Bologna, a.y. 2013/’14.
  4. M.J. Bahrampour, An Investigation on the Analysis of Laminated Composite Plates using the GDQ Method, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Nicholas Fantuzzi, a.y. 2014/’15.
  5. R. Sapienza, Indagine Parametrica di Strutture a Guscio a Doppia e Singola Curvatura Realizzate con Materiali Innovativi, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2014/’15.
  6. E. Cevenini, Elementi Finiti in Forma Forte: Applicazione a Problemi Piani con Discontinuità e Materiali Compositi, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Nicholas Fantuzzi, a.y. 2014/’15.
  7. F. Casini (2016) - Vibrazioni di Piastre in Materiale Composito con Elementi Finiti in Forma Forte, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Nicholas Fantuzzi, a.y. 2015/’16.
  8. L. Bonfiglioli (2016) - Strutture a Guscio in Materiale Composito: Eccitazione Periodica e Sismica Applicata alla Base, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2015/’16.
  9. G. Castellini (2017) - Strutture Curve in Materiale Composito Soggette a un’Eccitazione Periodica e Sismica alla Base: Spostamenti e Azioni Interne, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2016/’17.
  10. C. Manna (2017) - Vibrazioni di Piastre di Forma Arbitraria con Elementi Finiti in Forma Forte: Convergenza, Stabilità e Accuratezza, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2016/’17.
  11. M. Magliocchetti (2017) - Analisi Statica e Dinamica di Strutture a Doppia Curvatura in Materiale Composito: Formulazione Forte e Debole con Teorie di Ordine Superiore, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2016/’17.
  12. M. Lupidi (2017) - Analisi Dinamica di Gusci Rotanti a Doppia e Singola Curvatura in Materiale Composito, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  13. G. Pirini (2017) - Elementi Finiti in Forma Forte per lo Studio Statico di Strutture con Materiali Micropolari, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  14. F. Palese (2017) - Modellazione Statica e Dinamica di Gusci in Materiale Composito Rinforzati da Fibre Curvilinee: Vibrazioni Libere, Profili di Tensione e Deformazione, Velocità Critiche di Rotazione, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  15. S. Cacchi (2018) - Teorie di Ordine Superiore per l’Analisi Dinamica e Statica di Archi e Travi in Materiale Composito, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  16. M. De Luca (2018) - Elementi Finiti in Forma Debole per l’Analisi Dinamica di Strutture di Forma Arbitraria in Materiale Composito, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  17. R. Bovicelli (2018) - Flusso del Vento e Carichi sulle Strutture nello Strato Limite Atmosferico, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Nicholas Fantuzzi, a.y. 2017/’18.
  18. A. Nicolardi (2019) - Grid Shells: Studio Numerico del Comportamento Strutturale di Gusci a Semplice e Doppia Curvatura, University of Salento, Advisors: Prof. Francesco Tornabene and Prof. Rossana Dimitri, a.y. 2018/’19.
  19. A. Notaro (2019) - Studio Numerico dei Modi di Vibrare di Strutture Composite a Guscio Mediante Tecniche di Calcolo Avanzate, University of Salento, Advisor: Prof. Francesco Tornabene and Prof. Rossana Dimitri, a.y. 2018/’19.
  20. F. Chirulli (2020) - Analisi Dinamica di Strutture a Guscio in Materiale Composito, University of Salento, Advisors: Prof. Francesco Tornabene, a.y. 2019/’20.
  21. M. Viscoti (2020) - Dynamic analysis of curved sandwich panels: Higher Order Theories and Homogenization Modelling, Advisors: Prof. Francesco Tornabene and Prof. Rossana Dimitri, a.y. 2019/’20.
  22. E. Leo (2020) - Studio Teorico-Numerico del Comportamento Meccanico di Serbatoi in Pressione, University of Salento, Advisors: Prof. Francesco Tornabene and Prof. Rossana Dimitri, a.y. 2019/’20.
  23. G. Maggiore (2021) - Applicazione di Profili Pultrusi in Elementi Strutturali Sostenibili per L’Ingegneria Civile, University of Salento, Advisors: Prof. Francesco Tornabene and Prof. Rossana Dimitri, a.y. 2019/’20.
  24. M. Rinaldi (2021) - Computational modeling based on FEM/XFEM of the 3D fracturing processes in anisotropic layered geomaterials, Advisors: Prof. Francesco Tornabene, Co-Advisors: Prof. Rossana Dimitri, Prof. Corrado Fidelibus, Ing. Marco Trullo, a.y. 2019/’20.
  25. K. Verholle (2021) - Analisi statica e vibrazioni libere per pannelli sandwich con cuore realizzato mediante struttura lattice, Advisors: Prof. Salvatore Brischetto and Prof. Francesco Tornabene, a.y. 2020/’21.

 

3.6  Co-Advisor of Theses

Co-Advisor of the following Theses:

  1. I. Ancona, Formulazione ed Applicazione del Metodo di Quadratura Differenziale Generalizzato, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2002/’03.
  2. S. Mercuri, Sui Metodi di Identificazione Strutturale Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2003/’04.
  3. M. Campidelli, Modellazione di Carichi da Esplosione e Risposta Strutturale, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2003/’04.
  4. A. Benedetti, Modellazione Analitica e Sperimentazione Numerica del Comportamento Dinamico di Elementi Strutturali, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2003/’04.
  5. A. Fusaro, Sulla Disposizione Ottimale degli Smorzatori nelle Strutture, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2003/’04.
  6. M. Seraceni, Storia e Teoria nelle Applicazioni ai Gusci Strutturali, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2005/’06.
  7. S. Mercuri, Modellazione ed Applicazioni in Dinamica Strutturale, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  8. F. Fanti, Modellazione Analitica e Sperimentazione Numerica del Comportamento Statico e Dinamico di Gusci di Traslazione, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2005/’06.
  9. L. Lazzarini Barnabei, Modellazione del Comportamento Dinamico di Strutture, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  10. P. Pastore, Modellazione Analitica e Sperimentazione Numerica di Gusci in Materiale Anisotropo, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  11. I. Ricci, Problemi Numerici in Dinamica delle Strutture, Alm Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  12. N. Fantuzzi, Sul Comportamento delle Volte Cilindriche, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  13. C. Belmonte, Modellazione del Comportamento di Materiali Piezoelettrici Fessurati, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  14. F. Torrebruno, Modellazione di telai piani su smorzatori viscoelastici, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  15. M. Temprati, Analisi Limite di Strutture in Muratura. Teoria e Applicazione all’Arco Trionfale, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2006/’07.
  16. G. De Vittorio, Stabilità ed accuratezza del Metodo di Quadratura Differenziale nella risoluzione di problemi dinamici, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2006/’07.

 

3.7  Tutor for Internships

Tutor of several Internships carried out by Civil Engineering Students at the School of Engineering of the Alma Mater Studiorum - University of Bologna.

 

3.8  Education

September 2018 Today: Full-time Assistant Professor at Università del Salento.

April 2012 September 2018: Full-time Assistant Professor at Alma Mater Studiorum - University of Bologna.

May 2007: Obtained the PhD in Mechanics of Structures at the Alma Mater Studiorum - University of Bologna.

July 2003: Degree in Mechanical Engineering at the Alma Mater Studiorum - University of Bologna.

July 1997: High School degree (Maturità Classica) at Liceo Classico “S. Luigi” in Bologna.

 

Lecce, 18 January 2022

                                                                                                          Yours Sincerely,

                                                                                              Ph.D. Ing. Francesco Tornabene

Scarica curriculum vitae

Didattica

A.A. 2023/2024

BIOMECCANICA

Corso di laurea INGEGNERIA BIOMEDICA

Tipo corso di studio Laurea

Lingua ITALIANO

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Anno accademico di erogazione 2023/2024

Per immatricolati nel 2022/2023

Anno di corso 2

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso PERCORSO COMUNE

Sede Lecce

MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea Magistrale

Lingua ITALIANO

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2023/2024

Per immatricolati nel 2023/2024

Anno di corso 1

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso CURRICULUM STRUTTURE

Sede Lecce

SCIENZA DELLE COSTRUZIONI (MOD. A)

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2023/2024

Per immatricolati nel 2021/2022

Anno di corso 3

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso PERCORSO COMUNE

A.A. 2022/2023

BIOMECCANICA

Corso di laurea INGEGNERIA BIOMEDICA

Tipo corso di studio Laurea

Lingua ITALIANO

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Anno accademico di erogazione 2022/2023

Per immatricolati nel 2021/2022

Anno di corso 2

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso PERCORSO COMUNE

Sede Lecce

MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea Magistrale

Lingua ITALIANO

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2022/2023

Per immatricolati nel 2022/2023

Anno di corso 1

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso CURRICULUM STRUTTURE

Sede Lecce

SCIENZA DELLE COSTRUZIONI (MOD. A)

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2022/2023

Per immatricolati nel 2020/2021

Anno di corso 3

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso PERCORSO COMUNE

A.A. 2021/2022

BIOMECCANICA

Corso di laurea INGEGNERIA BIOMEDICA

Tipo corso di studio Laurea

Lingua ITALIANO

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Anno accademico di erogazione 2021/2022

Per immatricolati nel 2020/2021

Anno di corso 2

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso PERCORSO COMUNE

Sede Lecce

MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea Magistrale

Lingua ITALIANO

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2021/2022

Per immatricolati nel 2021/2022

Anno di corso 1

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso CURRICULUM STRUTTURE

Sede Lecce

A.A. 2020/2021

DINAMICA DELLE STRUTTURE(C.I.)

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea Magistrale

Lingua ITALIANO

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2020/2021

Per immatricolati nel 2020/2021

Anno di corso 1

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso CURRICULUM STRUTTURE

MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea Magistrale

Lingua ITALIANO

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2020/2021

Per immatricolati nel 2020/2021

Anno di corso 1

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso CURRICULUM STRUTTURE

Sede Lecce

A.A. 2019/2020

MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea Magistrale

Lingua ITALIANO

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2019/2020

Per immatricolati nel 2019/2020

Anno di corso 1

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso PERCORSO GENERICO/COMUNE

Sede Lecce

SCIENZA DELLE COSTRUZIONI

Corso di laurea INGEGNERIA INDUSTRIALE

Tipo corso di studio Laurea

Lingua ITALIANO

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Anno accademico di erogazione 2019/2020

Per immatricolati nel 2017/2018

Anno di corso 3

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso CURRICULUM AEROSPAZIALE

Sede Brindisi

A.A. 2018/2019

MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Tipo corso di studio Laurea Magistrale

Lingua ITALIANO

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Anno accademico di erogazione 2018/2019

Per immatricolati nel 2018/2019

Anno di corso 1

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso PERCORSO GENERICO/COMUNE

Sede Lecce

SCIENZA DELLE COSTRUZIONI

Corso di laurea INGEGNERIA INDUSTRIALE

Tipo corso di studio Laurea

Lingua ITALIANO

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Anno accademico di erogazione 2018/2019

Per immatricolati nel 2016/2017

Anno di corso 3

Struttura DIPARTIMENTO DI INGEGNERIA DELL'INNOVAZIONE

Percorso PERCORSO COMUNE

Sede Lecce

Torna all'elenco
FONDAMENTI DI ANALISI FEM DI MATERIALI E TESSUTI

Corso di laurea INGEGNERIA BIOMEDICA

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2023/2024

Anno accademico di erogazione 2024/2025

Anno di corso 2

Semestre Primo Semestre (dal 16/09/2024 al 20/12/2024)

Lingua ITALIANO

Percorso INGEGNERIA TISSUTALE (A228)

Sede Lecce

Conoscenze di base di Algebra e Geometria, di Scienza delle Costruzioni, Complementi di Scienza delle Costruzioni e di Calcolo Numerico.

Il corso si propone di fornire allo studente le conoscenze di base nell'ambito di alcuni metodi classici di meccanica computazionale. In particolare, partendo dal classico metodo agli spostamenti per travi e telai piani, si svilupperà il metodo degli elementi finiti per travi non deformabili a taglio e deformabili a taglio. Si passerà quindi allo sviluppo di elementi finiti per problemi al continuo bidimensionali. Nell'ambito delle strutture bidimensionali si forniranno le basi per lo studio di elementi strutturali doppiamente curvi in materiale composito. Verranno presentate sia la formulazione in forma debole che la formulazione in forma forte per aste, travi, membrane, piastre e gusci.

Dopo il corso lo studente è in grado di
*Classificare una struttura e definirne un modello matematico.
*Risolvere una struttura e individuare i suoi punti più sollecitati mediante programmi ad elementi finiti.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova orale con discussione degli elaborati assegnati durante il corso.

- Introduzione al corso.

- Sistemi discreti.

- Matrice di rigidezza per aste, sistemi di aste e travature reticolari.

- Matrice di rigidezza a flessione e a torsione.

- Travi spaziali e telai piani.

- Elementi finiti bidimensionali.

- Considerazioni di dinamica e principio di Hamilton.

- Derivazione e integrazione numerica.

- Spazio dei polinomi e approssimazione funzionale.

- Strutture bidimensionali doppiamente curve in materiale composito.

- Formulazione forte e debole per differenti elementi strutturali.

[1] E. Viola – Fondamenti di Analisi Matriciale delle Strutture, Pitagora Editrice, Bologna.

[2] F. Tornabene, M. Bacciocchi – Anisotropic Doubly-Curved Shells, Pitagora Editrice, Bologna.

[3] F. Tornabene – DiQuMASPAB - User Manual, Pitagora Editrice, Bologna.

FONDAMENTI DI ANALISI FEM DI MATERIALI E TESSUTI (ICAR/08)
BIOMECCANICA

Corso di laurea INGEGNERIA BIOMEDICA

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Per immatricolati nel 2022/2023

Anno accademico di erogazione 2023/2024

Anno di corso 2

Semestre Secondo Semestre (dal 04/03/2024 al 14/06/2024)

Lingua ITALIANO

Percorso PERCORSO COMUNE (999)

Sede Lecce

Analisi Matematica I e II, Geometria e Algebra, Fisica I

Il corso fornisce i fondamenti della statica e cinematica dei solidi deformabili e delle strutture. In particolare si trattano strutture composte da travi e sistemi di travi e si si forniscono allo studente i mezzi per la verifica di esse. Assegnati i carichi e la geometria, lo studente deve essere in grado di tracciare i diagrammi delle sollecitazioni e valutare lo spostamento in una sezione assegnata e lo stato di tensione in un punto generico nell’ipotesi che esse si comportino in maniera elastica lineare. Si intende pertanto fornire gli strumenti fondamentali al progetto e verifica delle strutture reali.

Dopo il corso lo studente è in grado di
*Classificare una struttura.
*Risolvere una struttura, diagrammare le caratteristiche della sollecitazione e la deformata qualitativa, e individuare i suoi punti più sollecitati.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova scritta ed una prova orale.

- Introduzione al corso.

- Formulazione e Soluzione di un Problema Strutturale.

- Analisi statica e cinematica delle strutture piane.

- Caratteristiche della sollecitazione.

- Strutture reticolari piane.

- Geometria delle masse.

- Analisi della deformazione e analisi della tensione.

- Il Corpo elastico.

- I Criteri di resistenza.

- Il problema di De Saint Venant e teoremi energetici.

- Metodi delle forze e delle deformazioni.

- Stabilità dell’equilibrio elastico di travi.

[1] E. Viola – Lezioni di Scienza delle Costruzioni, Pitagora Editrice, Bologna.
[2] D. Bigoni, A. Di Tommaso, M. Gei, F. Laudiero, D. Zaccaria – Geometria delle masse, Società Editrice Esculapio, Bologna.
[3] F. Tornabene, R. Dimitri – Stabilità dell’Equilibrio Elastico, Società Editrice Esculapio, Bologna.
[4] E. Viola – Esercitazioni di Scienza delle Costruzioni, vol. 1, 2, 4, Pitagora Editrice, Bologna.
[5] G. Legnani, G. Palmieri – Fondamenti di Meccanica e Biomeccanica del Movimento, Città Studi Edizioni.

BIOMECCANICA (ICAR/08)
MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2023/2024

Anno accademico di erogazione 2023/2024

Anno di corso 1

Semestre Secondo Semestre (dal 04/03/2024 al 14/06/2024)

Lingua ITALIANO

Percorso CURRICULUM STRUTTURE (A112)

Sede Lecce

Conoscenze di base di Algebra e Geometria, di Scienza delle Costruzioni, Complementi di Scienza delle Costruzioni e di Calcolo Numerico.

Il corso si propone di fornire allo studente le conoscenze di base nell'ambito di alcuni metodi classici di meccanica computazionale. In particolare, partendo dal classico metodo agli spostamenti per travi e telai piani, si svilupperà il metodo degli elementi finiti per travi non deformabili a taglio e deformabili a taglio. Si passerà quindi allo sviluppo di elementi finiti per problemi al continuo bidimensionali. Nell'ambito delle strutture bidimensionali si forniranno le basi per lo studio di elementi strutturali doppiamente curvi in materiale composito. Verranno presentate sia la formulazione in forma debole che la formulazione in forma forte per aste, travi, membrane, piastre e gusci.

Dopo il corso lo studente è in grado di
*Classificare una struttura e definirne un modello matematico.
*Risolvere una struttura e individuare i suoi punti più sollecitati mediante programmi ad elementi finiti.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova orale con discussione degli elaborati assegnati durante il corso.

- Introduzione al corso.

- Sistemi discreti.

- Matrice di rigidezza per aste, sistemi di aste e travature reticolari.

- Matrice di rigidezza a flessione e a torsione.

- Travi spaziali e telai piani.

- Elementi finiti bidimensionali.

- Considerazioni di dinamica e principio di Hamilton.

- Derivazione e integrazione numerica.

- Spazio dei polinomi e approssimazione funzionale.

- Strutture bidimensionali doppiamente curve in materiale composito.

- Formulazione forte e debole per differenti elementi strutturali.

[1] E. Viola – Fondamenti di Analisi Matriciale delle Strutture, Pitagora Editrice, Bologna.

[2] F. Tornabene, M. Bacciocchi – Anisotropic Doubly-Curved Shells, Pitagora Editrice, Bologna.

[3] F. Tornabene – DiQuMASPAB - User Manual, Pitagora Editrice, Bologna.

MECCANICA COMPUTAZIONALE (ICAR/08)
SCIENZA DELLE COSTRUZIONI (MOD. A)

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2021/2022

Anno accademico di erogazione 2023/2024

Anno di corso 3

Semestre Primo Semestre (dal 18/09/2023 al 22/12/2023)

Lingua

Percorso PERCORSO COMUNE (999)

Fisica, Analisi Matematica I e II, Geometria e Algebra, Meccanica Razionale

Il corso fornisce i fondamenti della statica e cinematica dei solidi deformabili e delle strutture. In particolare si trattano strutture composte da travi e sistemi di travi e si si forniscono allo studente i mezzi per la verifica di esse. Assegnati i carichi e la geometria, lo studente deve essere in grado di tracciare i diagrammi delle sollecitazioni e valutare lo spostamento in una sezione assegnata e lo stato di tensione in un punto generico nell’ipotesi che esse si comportino in maniera elastica lineare. Si intende pertanto fornire gli strumenti fondamentali al progetto e verifica delle strutture reali.

Dopo il corso lo studente è in grado di
*Classificare una struttura.
*Risolvere una struttura, diagrammare le caratteristiche della sollecitazione e la deformata qualitativa, e individuare i suoi punti più sollecitati.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova scritta ed una prova orale.

- Introduzione al corso.

- Formulazione e Soluzione di un Problema Strutturale.

- Analisi statica e cinematica delle strutture piane.

- Caratteristiche della sollecitazione.

- Strutture reticolari piane.

- Geometria delle masse.

- Analisi della deformazione e analisi della tensione.

- Il Corpo elastico.

- I Criteri di resistenza.

- Il problema di De Saint Venant e teoremi energetici.

- Metodi delle forze e delle deformazioni.

- Stabilità dell’equilibrio elastico di travi.

[1] E. Viola – Lezioni di Scienza delle Costruzioni, Pitagora Editrice, Bologna.
[2] D. Bigoni, A. Di Tommaso, M. Gei, F. Laudiero, D. Zaccaria – Geometria delle masse, Società Editrice Esculapio, Bologna.
[3] F. Tornabene, R. Dimitri Stabilità dell’Equilibrio Elastico, Società Editrice Esculapio, Bologna.
[4] E. Viola - Esercitazioni di Scienza delle Costruzioni, vol. 1, 2, 4, Pitagora Editrice, Bologna.

SCIENZA DELLE COSTRUZIONI (MOD. A) (ICAR/08)
BIOMECCANICA

Corso di laurea INGEGNERIA BIOMEDICA

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Per immatricolati nel 2021/2022

Anno accademico di erogazione 2022/2023

Anno di corso 2

Semestre Secondo Semestre (dal 01/03/2023 al 09/06/2023)

Lingua ITALIANO

Percorso PERCORSO COMUNE (999)

Sede Lecce

Analisi Matematica I e II, Geometria e Algebra, Fisica I

Il corso fornisce i fondamenti della statica e cinematica dei solidi deformabili e delle strutture. In particolare si trattano strutture composte da travi e sistemi di travi e si si forniscono allo studente i mezzi per la verifica di esse. Assegnati i carichi e la geometria, lo studente deve essere in grado di tracciare i diagrammi delle sollecitazioni e valutare lo spostamento in una sezione assegnata e lo stato di tensione in un punto generico nell’ipotesi che esse si comportino in maniera elastica lineare. Si intende pertanto fornire gli strumenti fondamentali al progetto e verifica delle strutture reali.

Dopo il corso lo studente è in grado di
*Classificare una struttura.
*Risolvere una struttura, diagrammare le caratteristiche della sollecitazione e la deformata qualitativa, e individuare i suoi punti più sollecitati.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova scritta ed una prova orale.

- Introduzione al corso.

- Formulazione e Soluzione di un Problema Strutturale.

- Analisi statica e cinematica delle strutture piane.

- Caratteristiche della sollecitazione.

- Strutture reticolari piane.

- Geometria delle masse.

- Analisi della deformazione e analisi della tensione.

- Il Corpo elastico.

- I Criteri di resistenza.

- Il problema di De Saint Venant e teoremi energetici.

- Metodi delle forze e delle deformazioni.

- Stabilità dell’equilibrio elastico di travi.

[1] E. Viola – Lezioni di Scienza delle Costruzioni, Pitagora Editrice, Bologna.
[2] D. Bigoni, A. Di Tommaso, M. Gei, F. Laudiero, D. Zaccaria – Geometria delle masse, Società Editrice Esculapio, Bologna.
[3] F. Tornabene, R. Dimitri – Stabilità dell’Equilibrio Elastico, Società Editrice Esculapio, Bologna.
[4] E. Viola – Esercitazioni di Scienza delle Costruzioni, vol. 1, 2, 4, Pitagora Editrice, Bologna.
[5] G. Legnani, G. Palmieri – Fondamenti di Meccanica e Biomeccanica del Movimento, Città Studi Edizioni.

BIOMECCANICA (ICAR/08)
MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2022/2023

Anno accademico di erogazione 2022/2023

Anno di corso 1

Semestre Secondo Semestre (dal 01/03/2023 al 09/06/2023)

Lingua ITALIANO

Percorso CURRICULUM STRUTTURE (A112)

Sede Lecce

Conoscenze di base di Algebra e Geometria, di Scienza delle Costruzioni, Complementi di Scienza delle Costruzioni e di Calcolo Numerico.

Il corso si propone di fornire allo studente le conoscenze di base nell'ambito di alcuni metodi classici di meccanica computazionale. In particolare, partendo dal classico metodo agli spostamenti per travi e telai piani, si svilupperà il metodo degli elementi finiti per travi non deformabili a taglio e deformabili a taglio. Si passerà quindi allo sviluppo di elementi finiti per problemi al continuo bidimensionali. Nell'ambito delle strutture bidimensionali si forniranno le basi per lo studio di elementi strutturali doppiamente curvi in materiale composito. Verranno presentate sia la formulazione in forma debole che la formulazione in forma forte per aste, travi, membrane, piastre e gusci.

Dopo il corso lo studente è in grado di
*Classificare una struttura e definirne un modello matematico.
*Risolvere una struttura e individuare i suoi punti più sollecitati mediante programmi ad elementi finiti.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova orale con discussione degli elaborati assegnati durante il corso.

- Introduzione al corso.

- Sistemi discreti.

- Matrice di rigidezza per aste, sistemi di aste e travature reticolari.

- Matrice di rigidezza a flessione e a torsione.

- Travi spaziali e telai piani.

- Elementi finiti bidimensionali.

- Considerazioni di dinamica e principio di Hamilton.

- Derivazione e integrazione numerica.

- Spazio dei polinomi e approssimazione funzionale.

- Strutture bidimensionali doppiamente curve in materiale composito.

- Formulazione forte e debole per differenti elementi strutturali.

[1] E. Viola – Fondamenti di Analisi Matriciale delle Strutture, Pitagora Editrice, Bologna.

[2] F. Tornabene, M. Bacciocchi – Anisotropic Doubly-Curved Shells, Pitagora Editrice, Bologna.

[3] F. Tornabene – DiQuMASPAB - User Manual, Pitagora Editrice, Bologna.

MECCANICA COMPUTAZIONALE (ICAR/08)
SCIENZA DELLE COSTRUZIONI (MOD. A)

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2020/2021

Anno accademico di erogazione 2022/2023

Anno di corso 3

Lingua

Percorso PERCORSO COMUNE (999)

Fisica, Analisi Matematica I e II, Geometria e Algebra, Meccanica Razionale

Il corso fornisce i fondamenti della statica e cinematica dei solidi deformabili e delle strutture. In particolare si trattano strutture composte da travi e sistemi di travi e si si forniscono allo studente i mezzi per la verifica di esse. Assegnati i carichi e la geometria, lo studente deve essere in grado di tracciare i diagrammi delle sollecitazioni e valutare lo spostamento in una sezione assegnata e lo stato di tensione in un punto generico nell’ipotesi che esse si comportino in maniera elastica lineare. Si intende pertanto fornire gli strumenti fondamentali al progetto e verifica delle strutture reali.

Dopo il corso lo studente è in grado di
*Classificare una struttura.
*Risolvere una struttura, diagrammare le caratteristiche della sollecitazione e la deformata qualitativa, e individuare i suoi punti più sollecitati.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova scritta ed una prova orale.

- Introduzione al corso.

- Formulazione e Soluzione di un Problema Strutturale.

- Analisi statica e cinematica delle strutture piane.

- Caratteristiche della sollecitazione.

- Strutture reticolari piane.

- Geometria delle masse.

- Analisi della deformazione e analisi della tensione.

- Il Corpo elastico.

- I Criteri di resistenza.

- Il problema di De Saint Venant e teoremi energetici.

- Metodi delle forze e delle deformazioni.

- Stabilità dell’equilibrio elastico di travi.

[1] E. Viola – Lezioni di Scienza delle Costruzioni, Pitagora Editrice, Bologna.
[2] D. Bigoni, A. Di Tommaso, M. Gei, F. Laudiero, D. Zaccaria – Geometria delle masse, Società Editrice Esculapio, Bologna.
[3] F. Tornabene, R. Dimitri Stabilità dell’Equilibrio Elastico, Società Editrice Esculapio, Bologna.
[4] E. Viola - Esercitazioni di Scienza delle Costruzioni, vol. 1, 2, 4, Pitagora Editrice, Bologna.

SCIENZA DELLE COSTRUZIONI (MOD. A) (ICAR/08)
BIOMECCANICA

Corso di laurea INGEGNERIA BIOMEDICA

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Per immatricolati nel 2020/2021

Anno accademico di erogazione 2021/2022

Anno di corso 2

Semestre Secondo Semestre (dal 01/03/2022 al 10/06/2022)

Lingua ITALIANO

Percorso PERCORSO COMUNE (999)

Sede Lecce

Analisi Matematica, Geometria e Algebra, Fisica

Il corso fornisce i fondamenti della statica e cinematica dei solidi deformabili e delle strutture. In particolare si trattano strutture composte da travi e sistemi di travi e si si forniscono allo studente i mezzi per la verifica di esse. Assegnati i carichi e la geometria, lo studente deve essere in grado di tracciare i diagrammi delle sollecitazioni e valutare lo spostamento in una sezione assegnata e lo stato di tensione in un punto generico nell’ipotesi che esse si comportino in maniera elastica lineare. Si intende pertanto fornire gli strumenti fondamentali al progetto e verifica delle strutture reali.

Dopo il corso lo studente è in grado di
*Classificare una struttura.
*Risolvere una struttura, diagrammare le caratteristiche della sollecitazione e la deformata qualitativa, e individuare i suoi punti più sollecitati.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova scritta ed una prova orale.

- Introduzione al corso.

- Formulazione e Soluzione di un Problema Strutturale.

- Analisi statica e cinematica delle strutture piane.

- Caratteristiche della sollecitazione.

- Strutture reticolari piane.

- Geometria delle masse.

- Analisi della deformazione e analisi della tensione.

- Il Corpo elastico.

- I Criteri di resistenza.

- Il problema di De Saint Venant e teoremi energetici.

- Metodi delle forze e delle deformazioni.

- Stabilità dell’equilibrio elastico di travi.

[1] E. Viola – Lezioni di Scienza delle Costruzioni, Pitagora Editrice, Bologna.
[2] D. Bigoni, A. Di Tommaso, M. Gei, F. Laudiero, D. Zaccaria – Geometria delle masse, Società Editrice Esculapio, Bologna.
[3] F. Tornabene, R. Dimitri – Stabilità dell’Equilibrio Elastico, Società Editrice Esculapio, Bologna.
[4] E. Viola – Esercitazioni di Scienza delle Costruzioni, vol. 1, 2, 4, Pitagora Editrice, Bologna.
[5] G. Legnani, G. Palmieri – Fondamenti di Meccanica e Biomeccanica del Movimento, Città Studi Edizioni.

BIOMECCANICA (ICAR/08)
MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2021/2022

Anno accademico di erogazione 2021/2022

Anno di corso 1

Semestre Secondo Semestre (dal 01/03/2022 al 10/06/2022)

Lingua ITALIANO

Percorso CURRICULUM STRUTTURE (A112)

Sede Lecce

Conoscenze di base di Algebra e Geometria, di Scienza delle Costruzioni, Complementi di Scienza delle Costruzioni e di Calcolo Numerico.

Il corso si propone di fornire allo studente le conoscenze di base nell'ambito di alcuni metodi classici di meccanica computazionale. In particolare, partendo dal classico metodo agli spostamenti per travi e telai piani, si svilupperà il metodo degli elementi finiti per travi non deformabili a taglio e deformabili a taglio. Si passerà quindi allo sviluppo di elementi finiti per problemi al continuo bidimensionali. Nell'ambito delle strutture bidimensionali si forniranno le basi per lo studio di elementi strutturali doppiamente curvi in materiale composito. Verranno presentate sia la formulazione in forma debole che la formulazione in forma forte per aste, travi, membrane, piastre e gusci.

Dopo il corso lo studente è in grado di
*Classificare una struttura e definirne un modello matematico.
*Risolvere una struttura e individuare i suoi punti più sollecitati mediante programmi ad elementi finiti.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova orale con discussione degli elaborati assegnati durante il corso.

- Introduzione al corso.

- Sistemi discreti.

- Matrice di rigidezza per aste, sistemi di aste e travature reticolari.

- Matrice di rigidezza a flessione e a torsione.

- Travi spaziali e telai piani.

- Elementi finiti bidimensionali.

- Considerazioni di dinamica e principio di Hamilton.

- Derivazione e integrazione numerica.

- Spazio dei polinomi e approssimazione funzionale.

- Strutture bidimensionali doppiamente curve in materiale composito.

- Formulazione forte e debole per differenti elementi strutturali.

[1] E. Viola – Fondamenti di Analisi Matriciale delle Strutture, Pitagora Editrice, Bologna.

[2] F. Tornabene, M. Bacciocchi – Anisotropic Doubly-Curved Shells, Pitagora Editrice, Bologna.

[3] F. Tornabene – DiQuMASPAB - User Manual, Pitagora Editrice, Bologna.

MECCANICA COMPUTAZIONALE (ICAR/08)
DINAMICA DELLE STRUTTURE(C.I.)

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2020/2021

Anno accademico di erogazione 2020/2021

Anno di corso 1

Semestre Secondo Semestre (dal 01/03/2021 al 11/06/2021)

Lingua ITALIANO

Percorso CURRICULUM STRUTTURE (A112)

Conoscenze di base di Algebra e Geometria, di Fisica, di Analisi Matematica, di Meccanica Razionale e di Scienza delle Costruzioni.

L'insegnamento presenta gli elementi di base e gli strumenti concettuali e analitici per lo studio del comportamento dinamico delle strutture in ingegneria civile. L'obiettivo principale dell'insegnamento consiste nel fornire agli studenti le basi concettuali e gli strumenti per affrontare lo studio dinamico delle strutture in ingegneria civile, con particolare riferimento a quelle con comportamento lineare.

Con il conseguimento dei crediti formativi lo studente acquisisce le conoscenze delle leggi fondamentali della dinamica e gli strumenti per l'analisi del comportamento dinamico delle strutture.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova orale con discussione degli elaborati assegnati durante il corso.

- Introduzione al corso.

- Dinamica  dei  sistemi  ad  un  grado  di  libertà.

- Eccitazione periodica ed analisi  armonica.

- Forzanti generiche e carichi impulsivi.

- Dinamica  dei  sistemi  a  più  gradi  di  libertà.

- Sistemi generalizzati a più gradi di libertà.

- Dinamica  delle  strutture continue: travi, archi, piastre e gusci.

- Identificazione dinamica delle strutture.

- Dinamica delle strutture a guscio in materiale composito.

[1] E. Viola – Fondamenti di dinamica e vibrazione delle strutture. Sistemi Discreti, Pitagora Editrice, Bologna.

[2] E. Viola – Fondamenti di dinamica e vibrazione delle strutture. Sistemi Continui, Pitagora Editrice, Bologna.

[3] F. Tornabene – Meccanica delle Strutture a Guscio in Materiale Composito. Progetto-Leonardo Esculapio Editrice, Bologna.

[4] F. Tornabene – DiQuMASPAB - User Manual, Pitagora Editrice, Bologna.

[5] L. Facchini – Elementi di Dinamica delle Strutture, Pitagora Editrice, Bologna.

DINAMICA DELLE STRUTTURE(C.I.) (ICAR/08)
MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2020/2021

Anno accademico di erogazione 2020/2021

Anno di corso 1

Semestre Secondo Semestre (dal 01/03/2021 al 11/06/2021)

Lingua ITALIANO

Percorso CURRICULUM STRUTTURE (A112)

Sede Lecce

Conoscenze di base di Algebra e Geometria, di Scienza delle Costruzioni, Complementi di Scienza delle Costruzioni e di Calcolo Numerico.

Il corso si propone di fornire allo studente le conoscenze di base nell'ambito di alcuni metodi classici di meccanica computazionale. In particolare, partendo dal classico metodo agli spostamenti per travi e telai piani, si svilupperà il metodo degli elementi finiti per travi non deformabili a taglio e deformabili a taglio. Si passerà quindi allo sviluppo di elementi finiti per problemi al continuo bidimensionali. Nell'ambito delle strutture bidimensionali si forniranno le basi per lo studio di elementi strutturali doppiamente curvi in materiale composito. Verranno presentate sia la formulazione in forma debole che la formulazione in forma forte per aste, travi, membrane, piastre e gusci.

Dopo il corso lo studente è in grado di
*Classificare una struttura e definirne un modello matematico.
*Risolvere una struttura e individuare i suoi punti più sollecitati mediante programmi ad elementi finiti.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova orale con discussione degli elaborati assegnati durante il corso.

- Introduzione al corso.

- Sistemi discreti.

- Matrice di rigidezza per aste, sistemi di aste e travature reticolari.

- Matrice di rigidezza a flessione e a torsione.

- Travi spaziali e telai piani.

- Elementi finiti bidimensionali.

- Considerazioni di dinamica e principio di Hamilton.

- Derivazione e integrazione numerica.

- Spazio dei polinomi e approssimazione funzionale.

- Strutture bidimensionali doppiamente curve in materiale composito.

- Formulazione forte e debole per differenti elementi strutturali.

[1] E. Viola – Fondamenti di Analisi Matriciale delle Strutture, Pitagora Editrice, Bologna.

[2] F. Tornabene, M. Bacciocchi – Anisotropic Doubly-Curved Shells, Pitagora Editrice, Bologna.

[3] F. Tornabene – DiQuMASPAB - User Manual, Pitagora Editrice, Bologna.

MECCANICA COMPUTAZIONALE (ICAR/08)
MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2019/2020

Anno accademico di erogazione 2019/2020

Anno di corso 1

Semestre Secondo Semestre (dal 02/03/2020 al 05/06/2020)

Lingua ITALIANO

Percorso PERCORSO GENERICO/COMUNE (PDS0-2008)

Sede Lecce

Conoscenze di base di Algebra e Geometria, di Scienza delle Costruzioni, Complementi di Scienza delle Costruzioni e di Calcolo Numerico.

Il corso si propone di fornire allo studente le conoscenze di base nell'ambito di alcuni metodi classici di meccanica computazionale. In particolare, partendo dal classico metodo agli spostamenti per travi e telai piani, si svilupperà il metodo degli elementi finiti per travi non deformabili a taglio e deformabili a taglio. Si passerà quindi allo sviluppo di elementi finiti per problemi al continuo bidimensionali. Nell'ambito delle strutture bidimensionali si forniranno le basi per lo studio di elementi strutturali doppiamente curvi in materiale composito. Verranno presentate sia la formulazione in forma debole che la formulazione in forma forte per aste, travi, membrane, piastre e gusci.

Dopo il corso lo studente è in grado di
*Classificare una struttura e definirne un modello matematico.
*Risolvere una struttura e individuare i suoi punti più sollecitati mediante programmi ad elementi finiti.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova orale con discussione degli elaborati assegnati durante il corso.

- Introduzione al corso.

- Sistemi discreti.

- Matrice di rigidezza per aste, sistemi di aste e travature reticolari.

- Matrice di rigidezza a flessione e a torsione.

- Travi spaziali e telai piani.

- Elementi finiti bidimensionali.

- Considerazioni di dinamica e principio di Hamilton.

- Derivazione e integrazione numerica.

- Spazio dei polinomi e approssimazione funzionale.

- Strutture bidimensionali doppiamente curve in materiale composito.

- Formulazione forte e debole per differenti elementi strutturali.

[1] E. Viola – Fondamenti di Analisi Matriciale delle Strutture, Pitagora Editrice, Bologna.

[2] F. Tornabene, M. Bacciocchi – Anisotropic Doubly-Curved Shells, Pitagora Editrice, Bologna.

[3] F. Tornabene – DiQuMASPAB - User Manual, Pitagora Editrice, Bologna.

MECCANICA COMPUTAZIONALE (ICAR/08)
SCIENZA DELLE COSTRUZIONI

Corso di laurea INGEGNERIA INDUSTRIALE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Per immatricolati nel 2017/2018

Anno accademico di erogazione 2019/2020

Anno di corso 3

Semestre Primo Semestre (dal 23/09/2019 al 20/12/2019)

Lingua ITALIANO

Percorso CURRICULUM AEROSPAZIALE (A93)

Sede Brindisi

Fisica, Analisi Matematica I e II, Geometria e Algebra, Meccanica Razionale

Il corso fornisce i fondamenti della statica e cinematica dei solidi deformabili e delle strutture. In particolare si trattano strutture composte da travi e sistemi di travi e si si forniscono allo studente i mezzi per la verifica di esse. Assegnati i carichi e la geometria, lo studente deve essere in grado di tracciare i diagrammi delle sollecitazioni e valutare lo spostamento in una sezione assegnata e lo stato di tensione in un punto generico nell’ipotesi che esse si comportino in maniera elastica lineare. Si intende pertanto fornire gli strumenti fondamentali al progetto e verifica delle strutture reali.

Dopo il corso lo studente è in grado di
*Classificare una struttura.
*Risolvere una struttura, diagrammare le caratteristiche della sollecitazione e la deformata qualitativa, e individuare i suoi punti più sollecitati.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova scritta ed una prova orale.

- Introduzione al corso.

- Formulazione e Soluzione di un Problema Strutturale.

- Analisi statica e cinematica delle strutture piane.

- Caratteristiche della sollecitazione.

- Strutture reticolari piane.

- Geometria delle masse.

- Analisi della deformazione e analisi della tensione.

- Il Corpo elastico.

- I Criteri di resistenza.

- Il problema di De Saint Venant e teoremi energetici.

- Metodi delle forze e delle deformazioni.

- Stabilità dell’equilibrio elastico di travi.

[1] E. Viola – Lezioni di Scienza delle Costruzioni, Pitagora Editrice, Bologna.
[2] D. Bigoni, A. Di Tommaso, M. Gei, F. Laudiero, D. Zaccaria – Geometria delle masse, Società Editrice Esculapio, Bologna.
[3] F. Tornabene, R. Dimitri Stabilità dell’Equilibrio Elastico, Società Editrice Esculapio, Bologna.
[4] E. Viola - Esercitazioni di Scienza delle Costruzioni, vol. 1, 2, 4, Pitagora Editrice, Bologna.

SCIENZA DELLE COSTRUZIONI (ICAR/08)
MECCANICA COMPUTAZIONALE

Corso di laurea INGEGNERIA CIVILE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea Magistrale

Crediti 6.0

Ripartizione oraria Ore totali di attività frontale: 54.0

Per immatricolati nel 2018/2019

Anno accademico di erogazione 2018/2019

Anno di corso 1

Semestre Secondo Semestre (dal 04/03/2019 al 04/06/2019)

Lingua ITALIANO

Percorso PERCORSO GENERICO/COMUNE (PDS0-2008)

Sede Lecce

Conoscenze di base di Algebra e Geometria, di Scienza delle Costruzioni, Complementi di Scienza delle Costruzioni e di Calcolo Numerico.

Il corso si propone di fornire allo studente le conoscenze di base nell'ambito di alcuni metodi classici di meccanica computazionale. In particolare, partendo dal classico metodo agli spostamenti per travi e telai piani, si svilupperà il metodo degli elementi finiti per travi non deformabili a taglio e deformabili a taglio. Si passerà quindi allo sviluppo di elementi finiti per problemi al continuo bidimensionali. Nell'ambito delle strutture bidimensionali si forniranno le basi per lo studio di elementi strutturali doppiamente curvi in materiale composito. Verranno presentate sia la formulazione in forma debole che la formulazione in forma forte per aste, travi, membrane, piastre e gusci.

Dopo il corso lo studente è in grado di
*Classificare una struttura e definirne un modello matematico.
*Risolvere una struttura e individuare i suoi punti più sollecitati mediante programmi ad elementi finiti.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova orale con discussione degli elaborati assegnati durante il corso.

- Introduzione al corso.

- Sistemi discreti.

- Matrice di rigidezza per aste, sistemi di aste e travature reticolari.

- Matrice di rigidezza a flessione e a torsione.

- Travi spaziali e telai piani.

- Elementi finiti bidimensionali.

- Considerazioni di dinamica e principio di Hamilton.

- Derivazione e integrazione numerica.

- Spazio dei polinomi e approssimazione funzionale.

- Strutture bidimensionali doppiamente curve in materiale composito.

- Formulazione forte e debole per differenti elementi strutturali.

[1] E. Viola – Fondamenti di Analisi Matriciale delle Strutture, Pitagora Editrice, Bologna.

[2] F. Tornabene, M. Bacciocchi – Anisotropic Doubly-Curved Shells, Pitagora Editrice, Bologna.

[3] F. Tornabene – DiQuMASPAB - User Manual, Pitagora Editrice, Bologna.

MECCANICA COMPUTAZIONALE (ICAR/08)
SCIENZA DELLE COSTRUZIONI

Corso di laurea INGEGNERIA INDUSTRIALE

Settore Scientifico Disciplinare ICAR/08

Tipo corso di studio Laurea

Crediti 9.0

Ripartizione oraria Ore totali di attività frontale: 81.0

Per immatricolati nel 2016/2017

Anno accademico di erogazione 2018/2019

Anno di corso 3

Semestre Primo Semestre (dal 24/09/2018 al 21/12/2019)

Lingua ITALIANO

Percorso PERCORSO COMUNE (999)

Sede Lecce

Fisica, Analisi Matematica I e II, Geometria e Algebra, Meccanica Razionale

Il corso fornisce i fondamenti della statica e cinematica dei solidi deformabili e delle strutture. In particolare si trattano strutture composte da travi e sistemi di travi e si si forniscono allo studente i mezzi per la verifica di esse. Assegnati i carichi e la geometria, lo studente deve essere in grado di tracciare i diagrammi delle sollecitazioni e valutare lo spostamento in una sezione assegnata e lo stato di tensione in un punto generico nell’ipotesi che esse si comportino in maniera elastica lineare. Si intende pertanto fornire gli strumenti fondamentali al progetto e verifica delle strutture reali.

Dopo il corso lo studente è in grado di
*Classificare una struttura.
*Risolvere una struttura, diagrammare le caratteristiche della sollecitazione e la deformata qualitativa, e individuare i suoi punti più sollecitati.
*Conoscere i concetti fondamentali applicativi e teorici previsti dal programma.

Lezioni ed esercitazioni frontali.

E’ prevista di norma una prova scritta ed una prova orale.

- Introduzione al corso.

- Formulazione e Soluzione di un Problema Strutturale.

- Analisi statica e cinematica delle strutture piane.

- Caratteristiche della sollecitazione.

- Strutture reticolari piane.

- Geometria delle masse.

- Analisi della deformazione e analisi della tensione.

- Il Corpo elastico.

- I Criteri di resistenza.

- Il problema di De Saint Venant e teoremi energetici.

- Metodi delle forze e delle deformazioni.

- Stabilità dell’equilibrio elastico di travi.

[1] E. Viola – Lezioni di Scienza delle Costruzioni, Pitagora Editrice, Bologna.
[2] D. Bigoni, A. Di Tommaso, M. Gei, F. Laudiero, D. Zaccaria – Geometria delle masse, Società Editrice Esculapio, Bologna.
[3] F. Tornabene, R. Dimitri Stabilità dell’Equilibrio Elastico, Società Editrice Esculapio, Bologna.
[4] E. Viola - Esercitazioni di Scienza delle Costruzioni, vol. 1, 2, 4, Pitagora Editrice, Bologna.

SCIENZA DELLE COSTRUZIONI (ICAR/08)

Tesi

Advisor of PhD Theses and Scientific Advisor of Research Grants

Supervisor and Thesis Advisor of the following PhD Theses:

  1. M. Bacciocchi (2018) - Higher-Order Strong and Weak Formulations for Arbitrarily Shaped Doubly-Curved Shells Made of Advanced Materials, PhD in “Civil, Chemical, Environmental, and MAterials Engineering”, XXX° Cycle, Alma Mater Studiorum University of Bologna.

Scientific advisor of the following Research Grant won by the candidate:

  1. M. Bacciocchi (2017) - Development of Numerical Methods based on the Strong and Weak Formulations of the Governing Equations for the Mechanical Behavior of Shell Structures Made of Innovative Materials, Research Grant at the DICAM Department (“Civil, Chemical, Environmental, and Materials Engineering”), Alma Mater Studiorum University of Bologna.

 

Co-Advisor of PhD Theses

Co-Advisor of the following PhD theses:

  1. N. Fantuzzi (2013) - Generalized Differential Quadrature Finite Element Method Applied to Advanced Structural Mechanics, PhD in “Structural Engineering and Hydraulics”, XXV° Cycle, Alma Mater Studiorum University of Bologna.

 

Advisor of Theses

Advisor for the following theses:

  1. M. Bacciocchi, Teorie di Ordine Superiore per Strutture a Doppia Curvatura in Materiale Anisotropo, Alma Mater Studiorum - University of Bologna, a.y. 2013/’14.
  2. C. Delle Donne, Elementi Finiti in Forma Forte: Applicazione a Problemi Piani, Alma Mater Studiorum - University of Bologna, a.y. 2013/’14.
  3. E. Galli, Ottimizzazione del Processo Produttivo di Tacchi Mediante Modellazione Numerica, Alma Mater Studiorum - University of Bologna, a.y. 2013/’14.
  4. M.J. Bahrampour, An Investigation on the Analysis of Laminated Composite Plates using the GDQ Method, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Nicholas Fantuzzi, a.y. 2014/’15.
  5. R. Sapienza, Indagine Parametrica di Strutture a Guscio a Doppia e Singola Curvatura Realizzate con Materiali Innovativi, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2014/’15.
  6. E. Cevenini, Elementi Finiti in Forma Forte: Applicazione a Problemi Piani con Discontinuità e Materiali Compositi, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Nicholas Fantuzzi, a.y. 2014/’15.
  7. F. Casini (2016) - Vibrazioni di Piastre in Materiale Composito con Elementi Finiti in Forma Forte, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Nicholas Fantuzzi, a.y. 2015/’16.
  8. L. Bonfiglioli (2016) - Strutture a Guscio in Materiale Composito: Eccitazione Periodica e Sismica Applicata alla Base, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2015/’16.
  9. G. Castellini (2017) - Strutture Curve in Materiale Composito Soggette a un’Eccitazione Periodica e Sismica alla Base: Spostamenti e Azioni Interne, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2016/’17.
  10. C. Manna (2017) - Vibrazioni di Piastre di Forma Arbitraria con Elementi Finiti in Forma Forte: Convergenza, Stabilità e Accuratezza, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2016/’17.
  11. M. Magliocchetti (2017) - Analisi Statica e Dinamica di Strutture a Doppia Curvatura in Materiale Composito: Formulazione Forte e Debole con Teorie di Ordine Superiore, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2016/’17.
  12. M. Lupidi (2017) - Analisi Dinamica di Gusci Rotanti a Doppia e Singola Curvatura in Materiale Composito, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  13. G. Pirini (2017) - Elementi Finiti in Forma Forte per lo Studio Statico di Strutture con Materiali Micropolari, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  14. F. Palese (2017) - Modellazione Statica e Dinamica di Gusci in Materiale Composito Rinforzati da Fibre Curvilinee: Vibrazioni Libere, Profili di Tensione e Deformazione, Velocità Critiche di Rotazione, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisors: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  15. S. Cacchi (2018) - Teorie di Ordine Superiore per l’Analisi Dinamica e Statica di Archi e Travi in Materiale Composito, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  16. M. De Luca (2018) - Elementi Finiti in Forma Debole per l’Analisi Dinamica di Strutture di Forma Arbitraria in Materiale Composito, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Michele Bacciocchi, Nicholas Fantuzzi, a.y. 2017/’18.
  17. R. Bovicelli (2018) - Flusso del Vento e Carichi sulle Strutture nello Strato Limite Atmosferico, Alma Mater Studiorum - University of Bologna, Advisor: Prof. Francesco Tornabene, Co-advisor: Nicholas Fantuzzi, a.y. 2017/’18.
  18. A. Nicolardi (2019) - Grid Shells: Studio Numerico del Comportamento Strutturale di Gusci a Semplice e Doppia Curvatura, University of Salento, Advisors: Prof. Francesco Tornabene and Prof. Rossana Dimitri, a.y. 2018/’19.

 

Co-Advisor of Theses

Co-Advisor of the following Theses:

  1. I. Ancona, Formulazione ed Applicazione del Metodo di Quadratura Differenziale Generalizzato, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2002/’03.
  2. S. Mercuri, Sui Metodi di Identificazione Strutturale Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2003/’04.
  3. M. Campidelli, Modellazione di Carichi da Esplosione e Risposta Strutturale, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2003/’04.
  4. A. Benedetti, Modellazione Analitica e Sperimentazione Numerica del Comportamento Dinamico di Elementi Strutturali, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2003/’04.
  5. A. Fusaro, Sulla Disposizione Ottimale degli Smorzatori nelle Strutture, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2003/’04.
  6. M. Seraceni, Storia e Teoria nelle Applicazioni ai Gusci Strutturali, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2005/’06.
  7. S. Mercuri, Modellazione ed Applicazioni in Dinamica Strutturale, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  8. F. Fanti, Modellazione Analitica e Sperimentazione Numerica del Comportamento Statico e Dinamico di Gusci di Traslazione, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2005/’06.
  9. L. Lazzarini Barnabei, Modellazione del Comportamento Dinamico di Strutture, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  10. P. Pastore, Modellazione Analitica e Sperimentazione Numerica di Gusci in Materiale Anisotropo, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  11. I. Ricci, Problemi Numerici in Dinamica delle Strutture, Alm Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  12. N. Fantuzzi, Sul Comportamento delle Volte Cilindriche, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  13. C. Belmonte, Modellazione del Comportamento di Materiali Piezoelettrici Fessurati, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  14. F. Torrebruno, Modellazione di telai piani su smorzatori viscoelastici, Alma Mater Studiorum - University of Bologna, Supervisor: Erasmo Viola, a.y. 2005/’06.
  15. M. Temprati, Analisi Limite di Strutture in Muratura. Teoria e Applicazione all’Arco Trionfale, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2006/’07.
  16. G. De Vittorio, Stabilità ed accuratezza del Metodo di Quadratura Differenziale nella risoluzione di problemi dinamici, Alma Mater Studiorum - University of Bologna, Supervisor: Prof. Erasmo Viola, a.y. 2006/’07.

Pubblicazioni

List of Publications

 

Papers published in International Journals

2005

  1. A. Piva, E. Viola, F. Tornabene (2005) - Crack Propagation in an Orthotropic Medium with Coupled Elastodynamic Properties, Mechanics Research Communications 32(2), 153-159. (IF2005 0.586, ISSN: 0093-6413).
  2. E. Viola, F. Tornabene (2005) - Vibration Analysis of Damaged Circular Arches with Varying Cross-section, Structural Integrity and Durability (SID-SDHM) 1(2), 155-169. (IF2005 -, ISSN: 1930-2983).

2006

  1. A. Piva, F. Tornabene, E. Viola (2006) - Crack Propagation in a Four-parameter Piezoelectric Medium, European Journal of Mechanics - A/Solids 25(2), 230-249. (IF2006 0.897, ISSN: 0997-7538).
  2. A. Piva, E. Viola, F. Tornabene (2006) - Elastodynamic Degenerate States for a Crack in an Orthotropic Medium, Meccanica 41(4), 363-373. (IF2006 0.4, ISSN: 0025-6455).
  3. E. Viola, F. Tornabene (2006) - Vibration Analysis of Conical Shell Structures Using GDQ Method, Far East Journal of Applied Mathematics 25(1), 23-39. (IF2006 -, ISSN: 0972-0960).

2007

  1. A. Piva, F. Tornabene, E. Viola (2007) - Subsonic Griffith Crack Propagation in Piezoelectric Media, European Journal of Mechanics - A/Solids 26(3), 442-459. (IF2007 1.049, ISSN: 0997-7538).
  2. F. Tornabene, E. Viola (2007) - Vibration Analysis of Spherical Structural Elements Using the GDQ Method, Computers and Mathematics with Applications 53(10), 1538-1560. (IF2007 0.72, ISSN: 0898-1221).
  3. E. Viola, M. Dilena, F. Tornabene (2007) - Analytical and Numerical Results for Vibration Analysis of Multi-Stepped and Multi-Damaged Circular Arches, Journal of Sound and Vibration 299(1-2), 143-163. (IF2007 1.024, ISSN: 0022-460X).
  4. E. Viola, L. Panzacchi, F. Tornabene (2007) - General Analysis and Application to Redundant Arches under Static Loading, Construction and Building Materials 21(5), 1129-1143. (IF2007 0.841, ISSN: 0950-0618).

2008

  1. A. Marzani, F. Tornabene, E. Viola (2008) - Nonconservative Stability Problems via Generalized Differential Quadrature Method, Journal of Sound and Vibration 315(1-2), 176-196. (IF2008 1.364, ISSN: 0022-460X).
  2. F. Tornabene, E. Viola (2008) - 2-D Solution for Free Vibrations of Parabolic Shells Using Generalized Differential Quadrature Method, European Journal of Mechanics - A/Solids 27(6), 1001-1025. (IF2008 1.674, ISSN: 0997-7538).
  3. E. Viola, C. Boldrini, F. Tornabene (2008) - Non-singular term effect on the Fracture Quantities of a Crack in a Piezoelectric Medium, Engineering Fracture Mechanics 75(15), 4542-4567. (IF2008 1.713, ISSN: 0013-7944).

2009

  1. F. Tornabene (2009) - Free Vibration Analysis of Functionally Graded Conical, Cylindrical Shell and Annular Plate Structures with a Four-parameter Power-Law Distribution, Computer Methods in Applied Mechanics and Engineering 198(37-40), 2911-2935. (IF2009 1.806, ISSN: 0045-7825).
  2. F. Tornabene, E. Viola (2009) - Free Vibration Analysis of Functionally Graded Panels and Shells of Revolution, Meccanica 44(3), 255-281. (IF2009 0.892, ISSN: 0025-6455).
  3. F. Tornabene, E. Viola (2009) - Free Vibrations of Four-Parameter Functionally Graded Parabolic Panels and Shells of Revolution, European Journal of Mechanics - A/Solids 28(5), 991-1013. (IF2009 1.815, ISSN: 0997-7538).
  4. F. Tornabene, E. Viola, D.J. Inman (2009) - 2-D Differential Quadrature Solution for Vibration Analysis of Functionally Graded Conical, Cylindrical Shell and Annular Plate Structures, Journal of Sound and Vibration 328(3), 259-290. (IF2009 1.414, ISSN: 0022-460X).
  5. E. Viola, F. Tornabene (2009) - Free Vibrations of Three Parameter Functionally Graded Parabolic Panels of Revolution, Mechanics Research Communications 36(5), 587-594. (IF2009 1.085, ISSN: 0093-6413).

2010

  1. F. Tornabene, A. Marzani, E. Viola, I. Elishakoff (2010) - Critical Flow Speeds of Pipes Conveying Fluid by the Generalized Differential Quadrature Method, Advances in Theoretical and Applied Mechanics 3(3), 121-138. (IF2010 -, ISSN: 1313-6550).

2011

  1. F. Tornabene (2011) - Free Vibrations of Laminated Composite Doubly-Curved Shells and Panels of Revolution via the GDQ Method, Computer Methods in Applied Mechanics and Engineering 200(9-12), 931-952. (IF2011 2.651, ISSN: 0045-7825).
  2. F. Tornabene (2011) - 2-D GDQ Solution for Free Vibrations of Anisotropic Doubly-Curved Shells and Panels of Revolution, Composite Structures 93(7), 1854-1876. (IF2011 2.24, ISSN: 0263-8223).
  3. F. Tornabene (2011) - Free Vibrations of Anisotropic Doubly-Curved Shells and Panels of Revolution with a Free-Form Meridian Resting on Winkler-Pasternak Elastic Foundations, Composite Structures 94(1), 186-206. (IF2011 2.24, ISSN: 0263-8223).
  4. F. Tornabene, A. Liverani, G. Caligiana (2011) - FGM and Laminated Doubly-Curved Shells and Panels of Revolution with a Free-Form Meridian: a 2-D GDQ Solution for Free Vibrations, International Journal of Mechanical Sciences 53(6), 446-470. (IF2011 1.231, ISSN: 0020-7403).

2012

  1. F. Tornabene, A. Liverani, G. Caligiana (2012) - Laminated Composite Rectangular and Annular Plates: A GDQ Solution for Static Analysis with a Posteriori Shear and Normal Stress Recovery, Composites Part B Engineering 43(4), 1847-1872. (IF2012 2.143, ISSN: 1359-8368).
  2. F. Tornabene, A. Liverani, G. Caligiana (2012) - Static Analysis of Laminated Composite Curved Shells and Panels of Revolution with a Posteriori Shear and Normal Stress Recovery Using Generalized Differential Quadrature Method, International Journal of Mechanical Sciences 61(1), 71-87. (IF2012 1.613, ISSN: 0020-7403).
  3. F. Tornabene, A. Liverani, G. Caligiana (2012) - General Anisotropic Doubly-Curved Shell Theory: a Differential Quadrature Solution for Free Vibrations of Shells and Panels of Revolution with a Free-Form Meridian, Journal of Sound and Vibration 331(22), 4848-4869. (IF2012 1.613, ISSN: 0022-460X).

2013

  1. A.J.M. Ferreira, E. Viola, F. Tornabene, N. Fantuzzi, A.M. Zenkour (2013) - Analysis of Sandwich Plates by Generalized Differential Quadrature Method, Mathematical Problems in Engineering Vol. 2013, Article ID 964367, 1-22, http://dx.doi.org/10.1155/2013/964367. (IF2013 1.082, ISSN: 1024-123X).
  2. Y. Li, N. Fantuzzi, F. Tornabene (2013) - On Mixed Mode Crack Initiation and Direction in Shafts: Strain Energy Density Factor and Maximum Tangential Stress Criteria, Engineering Fracture Mechanics 109, 273-289. (IF2013 1.662, ISSN: 0013-7944).
  3. F. Tornabene, A. Ceruti (2013) - Free-Form Laminated Doubly-Curved Shells and Panels of Revolution Resting on Winkler-Pasternak Elastic Foundations: A 2-D GDQ Solution for Static and Free Vibration Analysis, World Journal of Mechanics 3(1), 1-25. (IF2013 -, ISSN: 2160-049X).
  4. F. Tornabene, A. Ceruti (2013) - Mixed Static and Dynamic Optimization of Four-Parameter Functionally Graded Completely Doubly-Curved and Degenerate Shells and Panels Using GDQ Method, Mathematical Problems in Engineering Vol. 2013, Article ID 867079, 1-33, http://dx.doi.org/10.1155/2013/867079. (IF2013 1.082, ISSN: 1024-123X).
  5. F. Tornabene, N. Fantuzzi, E. Viola, A.J.M. Ferreira (2013) - Radial Basis Function Method Applied to Doubly-Curved Laminated Composite Shells and Panels with a General Higher-Order Equivalent Single Layer Theory, Composites Part B Engineering 55, 642-659. (IF2013 2.602, ISSN: 1359-8368).
  6. F. Tornabene, J.N. Reddy (2013) - FGM and Laminated Doubly-Curved and Degenerate Shells Resting on Nonlinear Elastic Foundations: a GDQ Solution for Static Analysis with a Posteriori Stress and Strain Recovery, Journal of Indian Institute of Science 93(4), 635-688. (IF2013 -, ISSN: 0970-4140).
  7. F. Tornabene, E. Viola (2013) - Static Analysis of Functionally Graded Doubly-Curved Shells and Panels of Revolution, Meccanica 48(4), 901-930. (IF2013 1.815, ISSN: 0025-6455).
  8. F. Tornabene, E. Viola, N. Fantuzzi (2013) - General Higher-order Equivalent Single Layer Theory for Free Vibrations of Doubly-Curved Laminated Composite Shells and Panels, Composite Structures 104(1), 94-117. (IF2013 3.12, ISSN: 0263-8223).
  9. E. Viola, F. Tornabene, N. Fantuzzi (2013) - General Higher-Order Shear Deformation Theories for the Free Vibration Analysis of Completely Doubly-Curved Laminated Shells and Panels, Composite Structures 95(1), 639-666. (IF2013 3.12, ISSN: 0263-8223).
  10. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Static Analysis of Completely Doubly-Curved Laminated Shells and Panels Using General Higher-Order Shear Deformation Theories, Composite Structures 101(1), 59-93. (IF2013 3.12, ISSN: 0263-8223).
  11. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Generalized Differential Quadrature Finite Element Method for Cracked Composite Structures of Arbitrary Shape, Composite Structures 106(1), 815-834. (IF2013 3.12, ISSN: 0263-8223).
  12. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - Soft Core Plane State Structures Under Static Loads Using GDQFEM and Cell Method, CMES 94(4), 301-329. (IF2013 1.183, ISSN: 1526-1492).
  13. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - GDQFEM Numerical Simulations of Continuous Media with Cracks and Discontinuities, CMES 94(4), 331-368. (IF2013 1.183, ISSN: 1526-1492).
  14. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - On Static Analysis of Plane State Structures via GDQFEM and Cell Method, CMES 94(5), 419-456. (IF2013 1.183, ISSN: 1526-1492).

2014

  1. N. Fantuzzi, F. Tornabene (2014) - Strong Formulation Finite Element Method for Arbitrarily Shaped Laminated Plates - I. Theoretical Analysis, Advances in Aircraft and Spacecraft Science 1(2), 124-142. (IF2013-, ISSN: 2287-528X).
  2. N. Fantuzzi, F. Tornabene (2014) - Strong Formulation Finite Element Method for Arbitrarily Shaped Laminated Plates - II. Numerical Analysis, Advances in Aircraft and Spacecraft Science 1(2), 143-173. (IF2013 -, ISSN: 2287-528X).
  3. N. Fantuzzi, F. Tornabene, E. Viola (2014) - Generalized Differential Quadrature Finite Element Method for Vibration Analysis of Arbitrarily Shaped Membranes, International Journal of Mechanical Sciences 79, 216-251. (IF2014 2.034, ISSN: 0020-7403).
  4. N. Fantuzzi, F. Tornabene, E. Viola, A.J.M. Ferreira (2014) - A Strong Formulation Finite Element Method (SFEM) Based on RBF and GDQ Techniques for the Static and Dynamic Analyses of Laminated Plates of Arbitrary Shape, Meccanica 49, 2503-2542. (IF2014 1.949, ISSN: 0025-6455).
  5. A.J.M. Ferreira, E. Carrera, M. Cinefra, E. Viola, F. Tornabene, N. Fantuzzi, A.M. Zenkour (2014) - Analysis of Thick Isotropic and Cross-Ply Laminated Plates by Generalized Differential Quadrature Method and a Unified Formulation, Composites Part B Engineering 58(1), 544-552. (IF2014 2.983, ISSN: 1359-8368).
  6. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - The Local GDQ Method Applied to General Higher-Order Theories of Doubly-Curved Laminated Composite Shells and Panels: the Free Vibration Analysis, Composite Structures 116(1), 637-660. (IF2014 3.318, ISSN: 0263-8223).
  7. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - Free Vibrations of Free-Form Doubly-Curved Shells Made of Functionally Graded Materials Using Higher-Order Equivalent Single Layer Theories, Composites Part B Engineering 67(1), 490-509. (IF2014 2.983, ISSN: 1359-8368).
  8. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - The Strong Formulation Finite Element Method: Stability and Accuracy, Fracture and Structural Integrity 29(1), 251-265. (IF2013 -, ISSN: 1971-8993).
  9. F. Tornabene, N. Fantuzzi, E. Viola, E. Carrera (2014) - Static Analysis of Doubly-Curved Anisotropic Shells and Panels using CUF Approach, Differential Geometry and Differential Quadrature Method, Composite Structures 107, 675-697. (IF2014 3.318, ISSN: 0263-8223).
  10. F. Tornabene, N. Fantuzzi, E. Viola, J.N. Reddy (2014) - Winkler-Pasternak Foundation Effect on the Static and Dynamic Analyses of Laminated Doubly-Curved and Degenerate Shells and Panels, Composites Part B Engineering 57(1), 269-296. (IF2014 2.983, ISSN: 1359-8368).
  11. E. Viola, L. Rossetti, N. Fantuzzi, F. Tornabene (2014) - Static Analysis of Functionally Graded Conical Shells and Panels Using the Generalized Unconstrained Third Order Theory Coupled with the Stress Recovery, Composite Structures 112(1), 44-65. (IF2014 3.318, ISSN: 0263-8223).

2015

  1. S. Brischetto, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2015) - Refined 2D and Exact 3D Shell Models for the Free Vibration Analysis of Single- and Double-Walled Carbon Nanotubes, Technologies 3(1), 259-284. (IF2015 -, ISSN: 2227-7080).
  2. G. Carpentieri, F. Tornabene, L. Ascione, F. Fraternali (2015) - An Accurate One-Dimensional Theory for the Dynamics of Laminated Composite Curved Beams, Journal of Sound and Vibration 336(1), 96-105. (IF2015 2.107, ISSN: 0022-460X).
  3. R. Dimitri, F. Tornabene (2015) - A Parametric Investigation of the Seismic Capacity for Masonry Arches and Portals of Different Shapes, Engineering Failure Analysis 52(1), 1-34. (IF2013 1.130, ISSN: 1350-6307).
  4. N. Fantuzzi, M. Bacciocchi, F. Tornabene, E. Viola, A.J.M. Ferreira (2015) - Radial Basis Functions Based on Differential Quadrature Method for the Free Vibration Analysis of Laminated Composite Arbitrarily Shaped Plates, Composites Part B Engineering 78(1), 65-78. (IF2015 3.850, ISSN: 1359-8368).
  5. F. Tornabene, S. Brischetto, N. Fantuzzi, E. Viola (2015) - Numerical and Exact Models for Free Vibration Analysis of Cylindrical and Spherical Shell Panels, Composites Part B Engineering 81(1), 231-250. (IF2015 3.850, ISSN: 1359-8368).
  6. F. Tornabene, N. Fantuzzi, M. Bacciocchi, R. Dimitri (2015) - Dynamic Analysis of Thick and Thin Elliptic Shell Structures Made of Laminated Composite Materials, Composite Structures 133(1), 278-299. (IF2015 3.853, ISSN: 0263-8223).
  7. F. Tornabene, N. Fantuzzi, M. Bacciocchi, R. Dimitri (2015) - Free Vibrations of Composite Oval and Elliptic Cylinders by the Generalized Differential Quadrature Method, Thin-Walled Structures 97(1), 114-129. (IF2015 2.063, ISSN: 0263-8231).
  8. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Accurate Inter-Laminar Recovery for Plates and Doubly-Curved Shells with Variable Radii of Curvature Using Layer-Wise Theories, Composite Structures 124(1), 368-393. (IF2015 3.853, ISSN: 0263-8223).
  9. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - A New Approach for Treating Concentrated Loads in Doubly-Curved Composite Deep Shells with Variable Radii of Curvature, Composite Structures 131(1), 433-452. (IF2015 3.853, ISSN: 0263-8223).
  10. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Higher-Order Theories for the Free Vibration of Doubly-Curved Laminated Panels with Curvilinear Reinforcing Fibers by Means of a Local Version of the GDQ Method, Composites Part B Engineering 81(1), 196-230. (IF2015 3.850, ISSN: 1359-8368).
  11. F. Tornabene, N. Fantuzzi, F. Ubertini, E. Viola (2015) - Strong Formulation Finite Element Method Based on Differential Quadrature: a Survey, Applied Mechanics Reviews 67(2), 020801-1-55. (IF2013 2, ISSN: 0003-6900).
  12. F. Tornabene, N. Fantuzzi, E. Viola, R.C. Batra (2015) - Stress and Strain Recovery for Functionally Graded Free-Form and Doubly-Curved Sandwich Shells Using Higher-Order Equivalent Single Layer Theory, Composite Structures 119(1), 67-89. (IF2015 3.853, ISSN: 0263-8223).
  13. E. Viola, F. Tornabene, N. Fantuzzi (2015) - Stress and Strain Recovery of Laminated Composite Doubly-Curved Shells and Panels Using Higher-Order Formulations, Key Engineering Materials 624, 205-213. (IF2015 -, ISSN: 1662-9795).

2016

  1. M. Bacciocchi, M. Eisenberger, N. Fantuzzi, F. Tornabene, E. Viola (2016) - Vibration Analysis of Variable Thickness Plates and Shells by the Generalized Differential Quadrature Method, Composite Structures 156(1), 218-237. (IF2015 3.853, ISSN: 0263-8223).
  2. S. Brischetto, F. Tornabene, N. Fantuzzi, E. Viola (2016) - 3D Exact and 2D Generalized Differential Quadrature Models for Free Vibration Analysis of Functionally Graded Plates and Cylinders, Meccanica 51(9), 2059-2098. (IF2016 2.196, ISSN: 0025-6455).
  3. M. Degidi, G. Caligiana, D. Francia, A. Liverani, G. Olmi, F. Tornabene (2016) - Strain Gauge Analysis of Implant-Supported, Screw-Retained Metal Frameworks: Comparison Between Different Manufacturing Technologies, Proceedings of the Institution of Mechanical Engineers Part H Journal of Engineering in Medicine 230(9), 840-846. (IF2015 0.996, ISSN: 0954-4119).
  4. R. Dimitri, N. Fantuzzi, F. Tornabene, G. Zavarise (2016) - Innovative Numerical Methods Based on SFEM and IGA for Computing Stress Concentrations in Isotropic Plates with Discontinuities, International Journal of Mechanical Sciences 118, 166-187. (IF2015 2.481, ISSN: 0020-7403).
  5. N. Fantuzzi, S. Brischetto, F. Tornabene, E. Viola (2016) - 2D and 3D Shell Models for the Free Vibration Investigation of Functionally Graded Cylindrical and Spherical Panels, Composite Structures 154(1), 573-590. (IF2015 3.853, ISSN: 0263-8223).
  6. N. Fantuzzi, R. Dimitri, F. Tornabene (2016) - A SFEM-Based Evaluation of Mode-I Stress Intensity Factor in Composite Structures, Composite Structures 145(1), 162-185. (IF2015 3.853, ISSN: 0263-8223).
  7. N. Fantuzzi, F. Tornabene (2016) - Strong Formulation Isogeometric Analysis (SFIGA) for Laminated Composite Arbitrarily Shaped Plates, Composites Part B Engineering 96(1), 173-203. (IF2015 3.850, ISSN: 1359-8368).
  8. N. Fantuzzi, F. Tornabene, E. Viola (2016) - Four-Parameter Functionally Graded Cracked Plates of Arbitrary Shape: a GDQFEM Solution for Free Vibrations, Mechanics of Advanced Materials and Structures 23(1), 89-107. (IF2015 1, ISSN: 1537-6494).
  9. S. Kamarian, M. Salim, R. Dimitri, F. Tornabene (2016) - Free Vibration Analysis of Conical Shells Reinforced with Agglomerated Carbon Nanotubes, International Journal of Mechanical Sciences 108-109(1), 157-165. (IF2015 2.481, ISSN: 0020-7403).
  10. R. Kandasamy, R. Dimitri, F. Tornabene (2016) - Numerical Study on the Free Vibration and Thermal Buckling Behaviour of Moderately Thick Functionally Graded Structures in Thermal Environments, Composite Structures 157(1), 207-221. (IF2015 3.853, ISSN: 0263-8223).
  11. F. Tornabene (2016) - General Higher Order Layer-Wise Theory for Free Vibrations of Doubly-Curved Laminated Composite Shells and Panels, Mechanics of Advanced Materials and Structures 23(9), 1046-1067. (IF2015 1, ISSN: 1537-6494).
  12. F. Tornabene, S. Brischetto, N. Fantuzzi, M. Bacciocchi (2016) - Boundary Conditions in 2D Numerical and 3D Exact Models for Cylindrical Bending Analysis of Functionally Graded Structures, Shock and Vibration 2016, Article ID Article ID 2373862, 1-17. (IF2016 0.880, ISSN: 1070-9622).
  13. F. Tornabene, R. Dimitri, E. Viola (2016) - Transient Dynamic Response of Generally-Shaped Arches Based on a GDQ-Time-Stepping Method, International Journal of Mechanical Sciences 114, 274-314. (IF2015 2.481, ISSN: 0020-7403).
  14. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - Higher-Order Structural Theories for the Static Analysis of Doubly-Curved Laminated Composite Panels Reinforced by Curvilinear Fibers, Thin-Walled Structures 102(1), 222-245. (IF2015 2.063, ISSN: 0263-8231).
  15. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - The Local GDQ Method for the Natural Frequencies of Doubly-Curved Shells with Variable Thickness: A General Formulation, Composites Part B Engineering 92(1), 265-289. (IF2015 3.850, ISSN: 1359-8368).
  16. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - On the Mechanics of Laminated Doubly-Curved Shells Subjected to Point and Line Loads, International Journal of Engineering Science 109, 115-164. (IF2015 3.165, ISSN: 0020-7225).
  17. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - The GDQ Method for the Free Vibration Analysis of Arbitrarily Shaped Laminated Composite Shells Using a NURBS-Based Isogeometric Approach, Composite Structures 154(1), 190-218. (IF2015 3.853, ISSN: 0263-8223).
  18. F. Tornabene, N. Fantuzzi, M. Bacciocchi, A.M.A. Neves, A.J.M. Ferreira (2016) - MLSDQ Based on RBFs for the Free Vibrations of Laminated Composite Doubly-Curved Shells, Composites Part B: Engineering 99(1), 30-47. (IF2015 3.850, ISSN: 1359-8368).
  19. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Effect of Agglomeration on the Natural Frequencies of Functionally Graded Carbon Nanotube-Reinforced Laminated Composite Doubly-Curved Shells, Composites Part B Engineering 89(1), 187-218. (IF2015 3.850, ISSN: 1359-8368).
  20. F. Tornabene, N. Fantuzzi, E. Viola (2016) - Inter-Laminar Stress Recovery Procedure for Doubly-Curved, Singly-Curved, Revolution Shells with Variable Radii of Curvature and Plates Using Generalized Higher-Order Theories and the Local GDQ Method, Mechanics of Advanced Materials and Structures 23(9), 1019-1045. (IF2015 1, ISSN: 1537-6494).
  21. E. Viola, L. Rossetti, N. Fantuzzi, F. Tornabene (2016) - Generalized Stress-Strain Recovery Formulation Applied to Functionally Graded Spherical Shells and Panels Under Static Loading, Composite Structures 156(1), 145-164. (IF2015 3.853, ISSN: 0263-8223).

2017

  1. D. Banić, M. Bacciocchi, F. Tornabene, A.J.M. Ferreira (2017) - Influence of Winkler-Pasternak Foundation on the Vibrational Behavior of Plates and Shells Reinforced by Agglomerated Carbon Nanotubes, Applied Sciences 7(12), 1228, 1-55. (IF2015 1.726, ISSN: 2076-3417).
  2. S. Brischetto, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Interpretation of Boundary Conditions in the Analytical and Numerical Shell Solutions for Mode Analysis of Multilayered Structures, International Journal of Mechanical Sciences 122(1), 18-28. (IF2015 2.481, ISSN: 0020-7403).
  3. R. Dimitri, N. Fantuzzi, Y. Li, F. Tornabene (2017) - Numerical Computation of the Crack Development and SIF in Composite Materials with XFEM and SFEM, Composite Structures 160(1), 468-490. (IF2015 3.853, ISSN: 0263-8223).
  4. R. Dimitri, Y. Li, N. Fantuzzi, F. Tornabene (2017) - An Innovative Modeling of the Crack Path and Stress Intensity Factor for Arbitrary Shaft Configurations, Advanced Materials and Technologies 5, 20-35. (IF2017 -, ISSN: 2414-4606).
  5. N. Fantuzzi, G. Della Puppa, F. Tornabene, M. Trautz (2017) - Strong Formulation Isogeometric Analysis for the Vibration of Thin Membranes of General Shape, International Journal of Mechanical Sciences 120, 322-340. (IF2015 2.481, ISSN: 0020-7403).
  6. N. Fantuzzi, F. Tornabene, M. Bacciocchi, A.M.A. Neves, A.J.M. Ferreira (2017) - Stability and Accuracy of Three Fourier Expansion-Based Strong Form Finite Elements for the Free Vibration Analysis of Laminated Composite Plates, International Journal for Numerical Methods in Engineering 111(4), 354-382. (IF2015 2.1, ISSN: 1097-0207).
  7. N. Fantuzzi, F. Tornabene, M. Bacciocchi, R. Dimitri (2017) - Free Vibration Analysis of Arbitrarily Shaped Functionally Graded Carbon Nanotube-Reinforced Plates, Composites Part B Engineering 115(1), 384-408. (IF2015 3.850, ISSN: 1359-8368).
  8. A.L. Kalamkarov, F. Tornabene, P.M.C.L. Pacheco, M.A. Savi, G.C. Saha (2017) - Geometrically Non-Linear Elastic Model for a Thin Composite Layer with Wavy Surfaces, ZAMM - Journal of Applied Mathematics and Mechanics 97(11), 1381-1392. (IF2016 1.332, ISSN: 0044-2267).
  9. Y. Li, S. Cao, R. Dimitri, N. Fantuzzi, F. Tornabene (2017) - Analytical and Numerical Investigation of the Stiffness Matrix for Edge-Cracked Circular Shafts, Fatigue & Fracture of Engineering Materials & Structures 40(3), 391-411. (IF2015 1.838, ISSN: 1460-2695).
  10. M. Nejati, A. Asanjarani, R. Dimitri, F. Tornabene (2017) - Static and Free Vibration Analysis of Functionally Graded Conical Shells Reinforced by Carbon Nanotubes, International Journal of Mechanical Sciences 130(1), 383-398. (IF2015 2.481, ISSN: 0020-7403).
  11. M. Nejati, R. Dimitri, F. Tornabene, M. Hossein Yas (2017) - Thermal Buckling of Nanocomposite Stiffened Cylindrical Shells Reinforced by Functionally Graded Wavy Carbon Nano-Tubes with Temperature-Dependent Properties, Applied Sciences 7(12), 1223, 1-24. (IF2015 1.726, ISSN: 2076-3417).
  12. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Finite Elements Based on Strong and Weak Formulations for Structural Mechanics: Stability, Accuracy and Reliability, International Journal of Engineering & Applied Sciences 9(2), 1-21. (IF2015 -, ISSN: 1309-0267).
  13. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Linear Static Response of Nanocomposite Plates and Shells Reinforced by Agglomerated Carbon Nanotubes, Composites Part B Engineering 115(1), 449-476. (IF2015 3.850, ISSN: 1359-8368).
  14. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - A New Doubly-Curved Shell Element for the Free Vibrations of Arbitrarily Shaped Laminated Structures Based on Weak Formulation IsoGeometric Analysis, Composite Structures 171(1), 429-461. (IF2015 3.853, ISSN: 0263-8223).
  15. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Linear Static Behavior of Damaged Laminated Composite Plates and Shells, Materials 10(7), 811, 1-52. (IF2016 2.654, ISSN: 1996-1944).
  16. F. Tornabene, N. Fantuzzi, M. Bacciocchi, J.N. Reddy (2017) - An Equivalent Layer-Wise Approach for the Free Vibration Analysis of Thick and Thin Laminated Sandwich Shells, Applied Sciences 7(1), 17, 1-34. (IF2015 1.726, ISSN: 2076-3417).
  17. F. Tornabene, N. Fantuzzi, M. Bacciocchi, J.N. Reddy (2017) - A Posteriori Stress and Strain Recovery Procedure for the Static Analysis of Laminated Shells Resting on Nonlinear Elastic Foundation, Composites Part B Engineering 126(1), 162-191. (IF2015 3.850, ISSN: 1359-8368).
  18. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola, J.N. Reddy (2017) - A Numerical Investigation on the Natural Frequencies of FGM Sandwich Shells with Variable Thickness by the Local Generalized Differential Quadrature Method, Applied Sciences 7(2), 131, 1-39. (IF2015 1.726, ISSN: 2076-3417).
  19. E. Viola, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Numerical Investigation of Composite Materials with Inclusions and Discontinuities, Key Engineering Materials 747(1), 69-76. (IF2015 -, ISSN: 1662-9795).
  20. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Mechanical Behaviour of Composite Cosserat Solids in Elastic Problems with Holes and Discontinuities, Composite Structures 179(1), 468-481. (IF2015 3.853, ISSN: 0263-8223).
  21. F. Zare Jouneghani, R. Dimitri, M. Bacciocchi, F. Tornabene (2017) - Free Vibration Analysis of Functionally Graded Porous Doubly-Curved Shells Based on the First-Order Shear Deformation Theory, Applied Sciences 7(12), 1252, 1-20. (IF2015 1.726, ISSN: 2076-3417).

2018

  1. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, Michele Bacciocchi, F. Tornabene (2018) - Application of Sinusoidal Shear Deformation Theory and Physical Neutral Surface to Analysis of Functionally Graded Piezoelectric Plate, Composites Part B Engineering 151, 35-50. (IF2015 3.850, ISSN: 1359-8368).
  2. M. Arefi, M. Mohammadi, A. Tabatabaeian, R. Dimitri, F. Tornabene (2018) - Two-Dimensional Thermo-Elastic Static Analysis of FG-CNTRC Cylindrical Pressure Vessels, Steel and Composite Structures 27(4), 525-536. (IF2016 3.198, ISSN: 1229-9367).
  3. M. Arefi, E.M.R. Bidgoli, R. Dimitri, F. Tornabene (2018) - Free Vibrations of Functionally Graded Polymer Composite Nanoplates Reinforced with Graphene Nanoplatelets, Aerospace Science and Technology 81, 108-117. (IF2016 2.057, ISSN: 1270-9638).
  4. S. Brischetto, F. Tornabene (2018) - Advanced GDQ Models and 3D Stress Recovery in Multi-layered Plates, Spherical and Double-Curved Panels Subjected to Transverse Shear Loads, Composites Part B Engineering 146, 244-269. (IF2015 3.850, ISSN: 1359-8368).
  5. R. Dimitri, F. Tornabene (2018) - Numerical Study of the Mixed-Mode Delamination of Composite Specimens, Journal of Composites Science 2(2), 30, 1-33. (IF2018 -, ISSN: 2504-477X).
  6. R. Dimitri, F. Tornabene, G. Zavarise (2018) - Analytical and Numerical Modeling of the Mixed-Mode Delamination Process for Composite Moment-Loaded Double Cantilever Beams, Composite Structures 187(3), 535-553. (IF2015 3.853, ISSN: 0263-8223).
  7. N. Fantuzzi, L. Leonetti, P. Trovalusci, F. Tornabene (2018) - Some Novel Numerical Applications of Cosserat Continua, International Journal of Computational Methods 15(3), 1850054-1-38. (IF2016 1.053, ISSN: 0219-8762).
  8. N. Fantuzzi, F. Tornabene, M. Bacciocchi, A.J.M. Ferreira (2018) - On the Convergence of Laminated Composite Plates of Arbitrary Shape through Finite Element Models, Journal of Composites Science 2(1), 16, 1-50. (IF2018 -, ISSN: 2504-477X).
  9. S.A.M. Ghannadpour, A. Kurkaani Barvaj, F. Tornabene (2018) - A Semi-Analytical Investigation on Geometric Nonlinear and Progressive Damage Behavior of Relatively Thick Laminated Plates under Lateral Pressure and End-Shortening, Composite Structures 194, 598-610. (IF2015 3.853, ISSN: 0263-8223).
  10. R. Jiwari, S. Tomasiello, F. Tornabene (2018) - A Numerical Algorithm for Computational Modelling of Coupled Advection-Diffusion-Reaction Systems, Engineering Computations 35(3), 1383-1401. (IF2016 1.010, ISSN: 0264-4401).
  11. Y. Kiani, R. Dimitri, F. Tornabene (2018) - Free Vibration of FG-CNT Reinforced Composite Skew Cylindrical Shells using Chebyshev-Ritz Formulation, Composites Part B Engineering 147, 169-177. (IF2015 3.850, ISSN: 1359-8368).
  12. Y. Kiani, R. Dimitri, F. Tornabene (2018) - Free Vibration Study of Composite Conical Panels Reinforced with FG-CNTs, Engineering Structures 172, 472-482. (IF2016 2.258, ISSN: 0141-0296).
  13. M. Malikan, V.B. Nguyen, F. Tornabene (2018) - Electro-Magnetic Forced Vibrations of Composite Nanoplates Using Nonlocal Strain Gradient Theory, Materials Research Express 5(7; 075031), 1-20. (IF2016 1.068, ISSN: 2053-1591).
  14. M. Malikan, V.B. Nguyen, F. Tornabene (2018) - Damped Forced Vibration Analysis of Single-Walled Carbon Nanotubes Resting on Viscoelastic Foundation in Thermal Environment Using Nonlocal Strain Gradient Theory, Engineering Science and Technology 21, 778-786. (IF2018 -, ISSN: 2215-0986).
  15. M. Malikan, R. Dimitri, F. Tornabene (2018) - Effect of Sinusoidal Corrugated Geometries on the Vibrational Response of Viscoelastic Nanoplates, Applied Sciences 8(9), 1432, 1-12. (IF2015 1.726, ISSN: 2076-3417).
  16. M. Malikan, R. Dimitri, F. Tornabene (2018) - Thermo-Resonance Analysis of an Excited Graphene Sheet Using a New Approach, International Journal of Engineering & Applied Sciences 10(3), 190-206. (IF2015 -, ISSN: 1309-0267).
  17. M. Malikan, F. Tornabene, R. Dimitri (2018) - Nonlocal Three-dimensional Theory of Elasticity for Buckling Behavior of Functionally Graded Porous Nanoplates Using Volume Integrals, Materials Research Express 5(9; 095006), 1-20. (IF2016 1.068, ISSN: 2053-1591).
  18. F. Tornabene, M. Bacciocchi (2018) - Effect of Curvilinear Reinforcing Fibers on the Linear Static Behavior of Soft-Core Sandwich Structures, Journal of Composites Science 2(1), 14, 1-43. (IF2018 -, ISSN: 2504-477X).
  19. F. Tornabene, M. Bacciocchi (2018) - Dynamic Stability of Doubly-Curved Multi-layered Shells Subjected to Arbitrarily Oriented Angular Velocities: Numerical Evaluation of the Critical Speed, Composite Structures 201, 1031-1055. (IF2015 3.853, ISSN: 0263-8223).
  20. F. Tornabene, S. Brischetto (2018) - 3D Capability of Refined GDQ Models for the Bending Analysis of Composite and Sandwich Plates, Spherical and Doubly-Curved Shells, Thin-Walled Structures 129, 94-124. (IF2015 2.063, ISSN: 0263-8231).
  21. F. Tornabene, R. Dimitri (2018) - A Numerical Study of the Seismic Response of Arched and Vaulted Structures Made of Isotropic or Composite Materials, Engineering Structures 159(3), 332-366. (IF2016 2.258, ISSN: 0141-0296).
  22. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2018) - Mechanical Behavior of Damaged Laminated Composites Plates and Shells: Higher-Order Shear Deformation Theories, Composite Structures 189(4), 304-329. (IF2015 3.853, ISSN: 0263-8223).
  23. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - Strong and Weak Formulations Based on Differential and Integral Quadrature Methods for the Free Vibration Analysis of Composite Plates and Shells: Convergence and Accuracy, Engineering Analysis with Boundary Elements 92, 3-37. (IF2016 1.721, ISSN: 0955-7997).
  24. F. Zare Jouneghani, R. Dimitri, F. Tornabene (2018) - Structural Response of Porous FG Nanobeams under Hygro-Thermo-Mechanical Loadings, Composites Part B Engineering 152, 71-78. (IF2015 3.850, ISSN: 1359-8368).
  25. F. Zare Jouneghani, P. Mohammadi Dashtaki, R. Dimitri, M. Bacciocchi, F. Tornabene (2018) - First-Order Shear Deformation Theory for Orthotropic Doubly-Curved Shells Based on a Modified Couple Stress Elasticity, Aerospace Science and Technology 73, 129-147. (IF2016 2.057, ISSN: 1270-9638).

2019

  1. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, Michele Bacciocchi, F. Tornabene (2019), Nonlocal Bending Analysis of Curved Nanobeams Reinforced by Graphene Nanoplatelets, Composites Part B Engineering 166, 1-12. (IF2015 3.850, ISSN: 1359-8368).
  2. M. Arefi, E.M.-R. Bidgoli, R. Dimitri, F. Tornabene, J.N. Reddy (2019), Size-Dependent Free Vibrations of FG Polymer Composite Curved Nanobeams Reinforced with Graphene Nanoplatelets Resting on Pasternak Foundations, Applied Sciences 9(8), 1580, 1-19. (IF2015 1.726, ISSN: 2076-3417).
  3. F. Ebrahimi, A. Dabbagh, T. Rabczuk, F. Tornabene (2019) - Analysis of propagation characteristics of elastic waves in heterogeneous nanobeams employing a new two-step porosity-dependent homogenization scheme, Advances in Nano Research 7(2), 135-143. (IF2017 2.333, ISSN: 2287-237X).
  4. F. Ebrahimi, A. Dabbagh, F. Tornabene, O. Civalek (2019) - Wave Propagation Modeling within Magnetostrictive Nanostructure Systems in Hygrothermal Environment, Advances in Nano Research 7(3), 157-166. (IF2017 2.333, ISSN: 2287-237X).
  5. S.A.M. Ghannadpour, M. Karimi, F. Tornabene (2019) - Application of Plate Decomposition Technique in Nonlinear and Post-Buckling Analysis of Functionally Graded Plates Containing Crack, Composite Structures 220, 158-167. (IF2015 3.853, ISSN: 0263-8223).
  6. A.R. Ghasemi, M. Mohandes, R. Dimitri, F. Tornabene (2019) - Agglomeration Effects on the Vibrations of Cnts/Fiber/Polymer/Metal Hybrid Laminates Cylindrical Shell, Composites Part B Engineering 167, 700-716. (IF2015 3.850, ISSN: 1359-8368).
  7. M.H. Jalaei, R. Dimitri, F. Tornabene (2019) - Dynamic Stability of Temperature-Dependent Graphene Sheet Embedded in an Elastomeric Medium, Applied Sciences 9(5), 887, 1-15. (IF2015 1.726, ISSN: 2076-3417).
  8. S.K. Jena, S. Chakraverty, R.M. Jena, F. Tornabene (2019) - A Novel Fractional Nonlocal Model and its Application in Buckling Analysis of Euler-Bernoulli Nanobeam, Materials Research Express 6(5) 055016, 1-17. (IF2016 1.068, ISSN: 2053-1591).
  9. S.K. Jena, S. Chakraverty, F. Tornabene (2019) - Vibration Characteristics of Nanobeam with Exponentially Varying Flexural Rigidity Resting on Linearly Varying Elastic Foundation Using Differential Quadrature Method, Materials Research Express 6(8) 085051, 1-13. (IF2016 1.068, ISSN: 2053-1591).
  10. S.K. Jena, S. Chakraverty, F. Tornabene (2019) - Dynamical Behavior of Nanobeam Embedded in Constant, Linear, Parabolic and Sinusoidal Types of Winkler Elastic Foundation Using First-Order Nonlocal Strain Gradient Model, Materials Research Express 6(8) 0850f2, 1-23. (IF2016 1.068, ISSN: 2053-1591).
  11. B. Karami, D. Shahsavari, M. Janghorban, R. Dimitri, F. Tornabene (2019) - Wave Propagation of Porous Nanoshells, Nanomaterials 9(1), 22, 1-19. (IF2017 3.504, ISSN: 2079-4991).
  12. L. Leonetti, N. Fantuzzi, P. Trovalusci, F. Tornabene (2019) - Scale Effects in Orthotropic Composite Assemblies as Micropolar Continua: A Comparison between Weak and Strong-Form Finite Element Solutions, Materials 12(5), 758, 1-24. (IF2016 2.654, ISSN: 1996-1944).
  13. M. Nejati, A. Ghasemi-Ghalebahman, A. Soltanimaleki, R. Dimitri, F. Tornabene (2019) - Thermal Vibration Analysis of SMA Hybrid Composite Double-Curved Sandwich Panels, Composite Structures 224(1) 111035, 1-11. (IF2015 3.853, ISSN: 0263-8223).
  14. M. Malikan, R. Dimitri, F. Tornabene (2019) - Transient Response of Oscillated Carbon Nanotubes with an Internal and External Damping, Composites Part B Engineering 158, 198-205. (IF2015 3.850, ISSN: 1359-8368).
  15. M. Malikan, V.B. Nguyen, R. Dimitri, F. Tornabene (2019) - Dynamic Modeling of Non-Cylindrical Curved Viscoelastic Single-Walled Carbon Nanotubes Based on the Second Gradient Theory, Materials Research Express 6(7) 075041, 1-17. (IF2016 1.068, ISSN: 2053-1591).
  16. M. Mohammadi, M. Arefi, R. Dimitri, F. Tornabene (2019) - Higher-Order Thermo-Elastic Analysis of FG-CNTRC Cylindrical Vessels Surrounded by a Pasternak Foundation, Nanomaterials 9(1), 79, 1-24. (IF2017 3.504, ISSN: 2079-4991).
  17. M. Mohammadi, M. Bamdad, K. Alambeigi, R. Dimitri, F. Tornabene (2019) - Electro-Elastic Response of Cylindrical Sandwich Pressure Vessels with Porous Core and Piezoelectric Face-Sheets, Composite Structures 225(1) 111119, 1-16. (IF2015 3.853, ISSN: 0263-8223).
  18. F. Tornabene (2019) - On the Critical Speed Evaluation of Arbitrarily Oriented Rotating Doubly-Curved Shells Made of Functionally Graded Materials, Thin-Walled Structures 140, 85-98. (IF2015 2.063, ISSN: 0263-8231).
  19. F. Tornabene, M. Bacciocchi, N. Fantuzzi, J.N. Reddy (2019) - Multiscale Approach for Three-Phase CNT/Polymer/Fiber Laminated Nanocomposite Structures, Polymer Composites 40, E102-E126. (IF2016 2.234, ISSN: 1548-0569).
  20. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2019) - Foam Core Composite Sandwich Plates and Shells with Variable Stiffness: Effect of Curvilinear Fiber Path on the Modal Response, Journal of Sandwich Structures and Materials 21(1), 320-365. (IF2015 2.852, ISSN: 1099-6362).
  21. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2019) - Refined Shear Deformation Theories for Laminated Composite Arches and Beams with Variable Thickness: Natural Frequency Analysis, Engineering Analysis with Boundary Elements 100, 24-47. (IF2016 1.721, ISSN: 0955-7997).

 

Editorials in International Journals

  1. M. Cinefra, A. Pagani, F. Tornabene (2016) - Applications of Unified Formulation and Advanced Theories Using Several Numerical Approaches, Mechanics of Advanced Materials and Structures 23(9), 935-936. (IF2015 1, ISSN: 1537-6494).
  2. F. Tornabene (2017) - Journal of Composites Science: A New Journal for Composite Materials, Structures and Experiments, Journal of Composites Science 1(1), 1-2. (IF2015 -, ISSN: 2504-477X).

 

International Monographs

  1. E. Viola, F. Tornabene (2007) - Dynamical Analysis of Spherical Shell Structural Elements Using the First-order Shear Deformation Theory, Mechanical Vibration: Where do we stand?, CISM Courses and Lectures no. 488, 17-41, ed. by I. Elishakoff, Springer - Wien, New York.
  2. F. Tornabene, N. Fantuzzi (2014) - Mechanics of Laminated Composite Doubly-Curved Shell Structures. The Generalized Differential Quadrature Method and the Strong Formulation Finite Element Method, Esculapio, Bologna. ISBN: 978-88-7488-687-6.
  3. A.J.M. Ferreira, E. Viola, F. Tornabene (2015) - International Conference on Shells, Plates and Beams Esculapio, Bologna. ISBN: 978-88-7488-886-3. ISSN: 2421-2822.
  4. A.J.M. Ferreira, A.M.A. Neves, E. Viola, F. Tornabene, N. Fantuzzi (2016) - 2nd International Conference on Mechanics of Composites, Esculapio, Bologna. ISBN: 978-88-7488-963-1. ISSN: 2421-2822.
  5. A.J.M. Ferreira, A.M.A. Neves, E. Viola, F. Tornabene, N. Fantuzzi (2016) - 19th International Conference on Composite Structures, Esculapio, Bologna. ISBN: 978-88-7488-977-8. ISSN: 2421-2822.
  6. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Laminated Composite Doubly-Curved Shell Structures I. Differential Geometry. Higher-Order Structural Theories, Esculapio, Bologna. ISBN: 978-88-7488-957-0. ISSN: 2421-2822.
  7. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Laminated Composite Doubly-Curved Shell Structures II. Differential and Integral Quadrature. Strong Formulation Finite Element Method, Esculapio, Bologna. ISBN: 978-88-7488-958-7. ISSN: 2421-2822.
  8. A.J.M. Ferreira, E. Viola, F. Tornabene, N. Fantuzzi (2017) - 3nd International Conference on Mechanics of Composites, Esculapio, Bologna. ISBN: 978-88-9385-029-2. ISSN: 2421-2822.
  9. F. Tornabene, N. Fantuzzi (2017) - Theory of Laminated Composite Doubly-Curved Shell Structures, Esculapio, Bologna. ISBN: 978-88-9385-001-8. ISSN: 2421-2822.
  10. A.J.M. Ferreira, W. Larbi, J.-F. Deu, F. Tornabene, N. Fantuzzi (2017) - 20th International Conference on Composite Structures, Esculapio, Bologna. ISBN: 978-88-9385-041-4. ISSN: 2421-2822.
  11. A.J.M. Ferreira, F. Tornabene, N. Fantuzzi, E. Viola (2018) - 21th International Conference on Composite Structures, Esculapio, Bologna. ISBN: 978-88-9385-079-7. ISSN: 2421-2822.
  12. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - DiQuMASPAB: Differential Quadrature for Mechanics of Anisotropic Shells, Plates, Arches and Beams. User Manual, Esculapio, Bologna. ISBN: 978-88-938-5063-6. ISSN: 2421-2822.
  13. F. Tornabene, M. Bacciocchi (2018) - Anisotropic Doubly-Curved Shells - Higher-Order Strong and Weak Formulations for Arbitrarily Shaped Shell Structures, Esculapio, Bologna. ISBN: 978-88-9385-080-3. ISSN: 2421-2822.

 

National Monographs

  1. F. Cesari, F. Tornabene (2011) - Esercizi di Meccanica delle Strutture: I Materiali Compositi, Pitagora, Bologna. ISBN: 88-371-1844-9.
  2. F. Tornabene (2012) - Meccanica delle Strutture a Guscio in Materiale Composito. Il metodo Generalizzato di Quadratura Differenziale, Esculapio, Bologna. ISBN: 978-88-7488-527-5.
  3. F. Tornabene, R. Dimitri (2015) - Stabilità dell’Equilibrio Elastico, Esculapio, Bologna. ISBN: 978-88-7488-845-0.
  4. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Strutture a Guscio in Materiale Composito I. Geometria Differenziale. Teorie di Ordine Superiore, Esculapio, Bologna. ISBN: 978-88-7488-855-9. ISSN: 2421-2822.
  5. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Strutture a Guscio in Materiale Composito II. Quadratura Differenziale e Integrale. Elementi Finiti in Forma Forte, Esculapio, Bologna. ISBN: 978-88-7488-856-6. ISSN: 2421-2822.
  6. F. Tornabene (2017) - Teoria delle Strutture a Guscio in Materiale Composito, Esculapio, Bologna. ISBN: 978-88-9385-000-1. ISSN: 2421-2822.

 

Publications in International Conferences

  1. E. Viola, L. Panzacchi, F. Tornabene (2004) - Structural Analysis of Historical Masonry Arches, International Conference of Restoration, Recycling and Rejuvenation Technology for Engineering and Architecture Application (RRTEA2004), Cesena, Italy, 7-11 June 2004. In: G.C. Sih et L. Nobile (eds.), Restoration, Recycling and Rejuvenation Technology for Engineering and Architecture Application, 358-369.
  2. F. Tornabene, E. Viola (2005) - The Effect of Cracks on the Dynamic Response of Circular Arches with Varying Cross-section by G.D.Q.E. Technique, IV° International Conference on Fracture and Damage Mechanics (FDM2005), Mallorca, Spain, 12-14 July 2005. In: M.H. Aliabadi et al. (eds.), Advances in Fracture and Damage Mechanics IV, 295-300.
  3. F. Tornabene, E. Viola (2006) - Differential Quadrature Solution for Parabolic Structural Shell Elements, III° European Conference on Computational Mechanics (ECCM2006), Lisbon, Portugal, 5-8 June 2006. In: C.A. Mota Soares et al. (eds.), Solids, Structures and Coupled Problems in Engineering, 393.
  4. F. Tornabene, F. Ubertini, E. Viola (2007) - The Generalized Differential Quadrature Method for Solving Initial-value Problems in Linear Dynamics, International Symposium on Recent Advances in Mechanics, Dynamical Systems and Probability Theory (MDP 2007), Palermo, Italy, 3-6 June 2007.
  5. F. Tornabene, E. Viola (2008) - A Generalized Differential Quadrature Solution for Laminated Composite Shells of Revolution, VIII° World Congress on Computational Mechanics (WCCM2008) - V° European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS2008), Venezia, Italy, 30 June - 4 July 2008.
  6. F. Tornabene, S. Abrate (2012) - Free Vibrations of Doubly Curved Functionally Graded Shells, International Conference on Mechanics of Nano, Micro and Macro Composite Structures (ICMNMMCS2012), Torino, Italy, 18-20 June 2012. In: A. J. M. Ferreira, E. Carrera (eds.), Mechanics of Nano, Micro and Macro Composite Structures.
  7. F. Tornabene, A. Liverani, G. Caligiana (2012) - Static Analysis with Normal and Shear Stress Recovery for Anisotropic Doubly-Curved Shell Panels Using the Differential Geometry and the GDQ Method, International Conference on Mechanics of Nano, Micro and Macro Composite Structures (ICMNMMCS2012), Torino, Italy, 18-20 June 2012. In: A. J. M. Ferreira, E. Carrera (eds.), Mechanics of Nano, Micro and Macro Composite Structures.
  8. N. Fantuzzi, F. Tornabene, E. Viola (2013) - Free Vibrations of Functionally Graded Cracked Plates of Arbitrary Shape via GDQFEM, 6th ECCOMAS Thematic Conference on Smart Structures and Materials (SMART2013), Torino, Italy, 24-26 June 2013.
  9. F. Tornabene, N. Fantuzzi, E. Viola (2013) - Layer-Wise and Equivalent-Single-Layer Theories for Laminated Composite Doubly-Curved Shells and Panels Using Differential Geometry and GDQ Method, 17th International Conference on Composite Structures (ICCS17), Porto, Portugal, 17-21 June 2013.
  10. F. Tornabene, N. Fantuzzi, E. Viola (2013) - Dynamic and Static Analysis of Laminated Doubly-Curved Shells and Panels Using Layer-Wise and Equivalent-Single-Layer Theories via GDQ Method, The 21st International Conference on Composite/Nano Engineering (ICCE21), Tenerife, Spain, 21-27 July 2013.
  11. F. Tornabene, N. Fantuzzi, E. Viola (2013) - Vibration Analysis of Laminated Doubly-Curved Shells and Panels Using Higher-Order Equivalent-Single-Layer and Layer-Wise Theories, 9th International Symposium on Vibrations of Continuous Systems (ISVCS13), Courmayeur, Italy, 22-26 July 2013.
  12. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Generalized Differential Quadrature Finite Element Method for Arbitrary Shaped Composite Structures, 17th International Conference on Composite Structures (ICCS17), Porto, Portugal, 17-21 June 2013.
  13. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - On Static Analysis of Composite Plane State Structures via GDQFEM and Cell Method, International Conference on Computational and Experimental Engineering and Sciences (ICCES2013), Seattle, USA, 24-28 May 2013.
  14. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - GDQFEM and Cell Method Numerical Simulations of Continuous Media with Cracks and Discontinuities, International Conference on Computational and Experimental Engineering and Sciences (ICCES2013), Seattle, USA, 24-28 May 2013.
  15. E. Viola, F. Tornabene, E. Ferretti, N. Fantuzzi (2013) - Soft Core Plane State Structures Under Static Loads Using GDQFEM and Cell Method, International Conference on Computational and Experimental Engineering and Sciences (ICCES2013), Seattle, USA, 24-28 May 2013.
  16. N. Fantuzzi, F. Tornabene, E. Viola (2014) - Multi-Layered Structures of Arbitrary Shape via Generalized Differential Quadrature Finite Element Method, 1st International Conference on Mechanics of Composites (MECHCOMP2014), Stony Brook, USA, 8-12 June 2014.
  17. N. Fantuzzi, F. Tornabene, E. Viola (2014) - Dynamic and Static Behavior of Arbitrarily Shaped Laminated Composite Plates via Strong Formulation Finite Element Method, The 22th International Conference on Composite/Nano Engineering (ICCE22), Malta, 13-19 July 2014.
  18. E. Viola, F. Tornabene, N. Fantuzzi (2014) - Stress and Strain Recovery of Laminated Composite Doubly-Curved Shells and Panels Using Higher-Order Formulations, Mechanics of Masonry Structures Strengthened with Composite Materials, Modeling, Testing, Design, Control (MuRiCo4), Ravenna, Italy, 9-11 September 2014.
  19. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - The Strong Formulation Finite Element Method Applied to Structural Mechanics Problems, GAMM 86th Annual Scientific Conference (GAMM2015), Lecce, Italy, 23-27 March 2015.
  20. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Advanced Applications for Laminated Doubly-Curved Shells with Variable Curvatures, 18th International Conference on Composite Structures (ICCS18), Porto, Portugal, 15-18 June 2015.
  21. N. Fantuzzi, F. Tornabene, E. Viola (2015) - Strong Formulation Finite Element Method for Arbitrary Shaped Composite Structures, 18th International Conference on Composite Structures (ICCS18), Porto, Portugal, 15-18 June 2015.
  22. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Computational Models for Laminated Doubly-Curved Shells with Variable Radii of Curvatures Using Weak and Strong Formulations, 9th European Solid Mechanics Conference (ESMC2015), Madrid, Spain, 6-10 July 2015.
  23. N. Fantuzzi, M. Bacciocchi, F. Tornabene, E. Viola (2015) - Static and Dynamic Analyses of Arbitrarily Shaped Laminated Composite Structures, International Conference on Shells, Plates and Beams (SPB2015), Bologna, Italy, 9-11 September 2015.
  24. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Higher-Order Theories for the Structural Analysis of Doubly-Curved Shells and Panels Made of Innovative Materials, International Conference on Shells, Plates and Beams (SPB2015), Bologna, Italy, 9-11 September 2015.
  25. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2016) - Moving Least Squares Differential Quadrature Based on Radial Basis Functions for the Vibration Analysis of Beams, Plates and Shells, International Conference on Vibrations and Buckling 2016 (VibBuck2016), Porto, Portugal, 7-9 March 2016.
  26. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2016) - Mechanics of Arbitrarily Shaped Composite Structures Using Isogeometric Mapping, 2nd International Conference on Mechanics of Composites (MECHCOMP2), Porto, Portugal, 11-14 July 2016.
  27. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Higher-Order Theories for the Structural Analysis of Doubly-Curved Shells with Variable Mechanical Properties, 2nd International Conference on Mechanics of Composites (MECHCOMP2), Porto, Portugal, 11-14 July 2016.
  28. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2016) - Isogeometric Analysis of Composite Structures Through Mapping Using Blending Functions, 19th International Conference on Composite Structures (ICCS19), Porto, Portugal, 5-9 September 2016.
  29. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - A General Formulation Based on Higher-Order Theories for the Static and Dynamic Analysis of Doubly-Curved Structures with Variable Mechanical and Geometrical Properties, 19th International Conference on Composite Structures (ICCS19), Porto, Portugal, 5-9 September 2016.
  30. N. Fantuzzi, F. Tornabene, M. Bacciocchi, R. Dimitri (2016) - Free Vibration Analysis of Functionally Graded Carbon Nanotube-Reinforced Composite Plates with Arbitrary Domains and Discontinuities, Multiscale Innovative Materials and Structures (MIMS16), Cetara, Italy, 28-30 October 2016.
  31. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2016) - Static and Dynamic Behavior of Functionally Graded Carbon Nanotube-Reinforced Laminated Composite Doubly-Curved Shells: Higher-Order Structural Approaches, Multiscale Innovative Materials and Structures (MIMS16), Cetara, Italy, 28-30 October 2016.
  32. E. Viola, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Numerical Investigation of Composite Materials with Inclusions and Discontinuities, Mechanics of Masonry Structures Strengthened with Composite Materials, Modeling, Testing, Design, Control (MuRiCo5), Bologna, Italy, 28-30 June 2017.
  33. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2017) - Mechanics of Structural Components by Using a Numerical Approach Based on Blending Functions Mapping and a Strong Formulation, 3rd International Conference on Mechanics of Composites (MECHCOMP3), Bologna, Italy, 4-7 July 2017.
  34. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2017) - Investigation on the Structural Response of Plates and Shells with Variable Mechanical Properties: Modeling of the Damage, 3rd International Conference on Mechanics of Composites (MECHCOMP3), Bologna, Italy, 4-7 July 2017.
  35. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2017) - Nanocomposite Plates and Shells Reinforced by Agglomerated Carbon Nanotubes: Static and Dynamic Analysis, The 25th International Conference on Composite/Nano Engineering (ICCE25), Roma, Italy, 16-22 July 2017.
  36. N. Fantuzzi, L. Leonetti, P. Trovalusci, F. Tornabene (2017) - Some Novel Numerical Applications of Cosserat Continua, 8th International Conference on Computational Methods (ICCM2017), Guilin, China, 25-29 July 2017.
  37. N. Fantuzzi, F. Tornabene, M. Bacciocchi, E. Viola (2017) - Composite Structures of Arbitrary Shape by Using Nonlinear Isogeometric Mapping, 20th International Conference on Composite Structures (ICCS20), Paris, France, 4-7 September 2017.
  38. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2017) - Mechanical Behavior of Damaged Laminated Composites Plates and Shells: Higher-Order Shear Deformation Theories, 20th International Conference on Composite Structures (ICCS20), Paris, France, 4-7 September 2017.
  39. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - Isogeometric Analysis of Arbitrarily Shaped Structures: A Numerical Approach Based on the Strong Formulation, V International Conference on Isogeometric Analysis (IGA2017), Pavia, Italy, 11-13 September 2017.
  40. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - A Numerical Approach Based on the GDQ Method for the Linear Static Analysis of Laminated Composite Shells Subjected to Point and Line Loads, IV ECCOMAS Young Investigator Conference (YIC2017), Milano, Italy, 13-15 September 2017.
  41. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2017) - How to Easily Model Doubly Curved Shells with Variable Radii of Curvature, The 11th Conference on Shell Structures: Theory and Applications (SSTA11), Gdańsk, Poland, 11-13 October 2017.
  42. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - Modelling of Damaged Laminated and Sandwich Shell Structures by means of Higher-order Shear Deformation Theories, 10th European Solid Mechanics Conference (ESMC2018), Bologna, Italy, 2-6 July 2018.
  43. N. Fantuzzi, M. Bacciocchi, F. Tornabene (2018) - Peculiar Convergence and Accuracy for Laminated Moderately Thick Plates of Arbitrary Shape in Free Vibrations, 4th International Conference on Mechanics of Composites (MECHCOMP4), Madrid, Spain, 9-12 July 2018.
  44. F. Tornabene, M. Bacciocchi, N. Fantuzzi (2018) - Critical Velocity Evaluation of Rotating Laminated Composite Doubly-Curved Shells, 4th International Conference on Mechanics of Composites (MECHCOMP4), Madrid, Spain, 9-12 July 2018.
  45. R. Dimitri, F. Tornabene (2018) - Numerical Study of the Mixed-Mode Delamination of Generally-Shaped Composite Interfaces, 21th International Conference on Composite Structures (ICCS21), Bologna, Italy, 4-7 September 2018.
  46. N. Fantuzzi, M. Bacciocchi, F. Tornabene (2018) - Free Vibration Problem of Composite Plates of Arbitrary Shape: Where Do We Stand?, 21th International Conference on Composite Structures (ICCS21), Bologna, Italy, 4-7 September 2018.
  47. F. Tornabene (2018) - Higher-Order Formulations for the Mechanical Analysis of Doubly-Curved Shell Structures Made of Advanced and Innovative Materials, 21th International Conference on Composite Structures (ICCS21), Bologna, Italy, 4-7 September 2018.
  48. R. Dimitri, F. Tornabene (2018) - Advanced Modeling for the Mixed-Mode Delamination of Composite Specimens, 9th International Conference on Computational Methods (ICCM2018), Roma, Italy, 6-10 August 2018.
  49. L. Leonetti, N. Fantuzzi, P. Trovalusci, F. Tornabene (2018) - Mechanical Behavior of Orthotropic Micropolar Continua Subjected to Localized Loads, 9th International Conference on Computational Methods (ICCM2018), Roma, Italy, 6-10 August 2018.
  50. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2018) - An Innovative Numerical Approach for the Mechanical Analysis of Damaged Laminated Composite Structures, 9th International Conference on Computational Methods (ICCM2018), Roma, Italy, 6-10 August 2018.
  51. R. Dimitri, F. Tornabene (2019) - Numerical Debonding Modelling of Curved Composite Specimens in Mixed-Mode Condition, International Conference on Nonlinear Solid Mechanics (ICoNSoM2019), Rome, Italy, 16-19 June 2019.
  52. R. Dimitri, F. Tornabene (2019) - Vibration Analysis of Composite Laminated and Latticed Structures Based on Higher-Order Formulations, International Conference on Nonlinear Solid Mechanics (ICoNSoM2019), Rome, Italy, 16-19 June 2019.
  53. R. Torre, S. Brischetto, F. Tornabene - Analytical and Semi-Analytical 3D Shell Models for Composite Structures, 5th International Conference on Mechanics of Composites (MECHCOMP5), Lisbon, Portugal, 1-4 July 2019.
  54. F. Tornabene, R. Dimitri, S. Brischetto (2019) - Higher-Order Formulation for the Mechanical Analysis of Laminated and Latticed Shells with Complex Geometries and Materials, International Conference on Boundary Element Techniques (BETEQ2019), Palermo, Italy, 22-24 July 2019.
  55. R. Torre, S. Brischetto, F. Tornabene - Cylindrical Bending in Composite Structures by Means of Analytical and Numerical 2D/3D Shell Models, 22th International Conference on Composite Structures (ICCS22), Wuhan, China, 31-3 November 2019.

 

Publications in National Conferences

  1. E. Viola, F. Tornabene (2006) - Free Vibration Analysis of Shells of Revolution Using GDQ Method, XVI° Convegno Italiano di Meccanica Computazionale (GIMC 2006), Bologna, Italy, 26-28 June 2006. In: F. Ubertini et al. (eds.), Atti XVI° Convegno Italiano di Meccanica Computazionale, 93.
  2. C. Boldrini, F. Tornabene, E. Viola (2007) - Analytical Formulation by Means of Complex Potentials of Crack Models in a Piezoelectric Material, Convegno Italiano “Materiali e Metodi Innovativi nell’Ingegneria Strutturale”, Catania, Italy, 4-6 July 2007. In: A. Badalà et al. (eds.), Materiali e Metodi Innovativi nell’Ingegneria Strutturale, 241-256.
  3. F. Tornabene, E. Viola (2007) - Free Vibrations of Laminated Composite Hyperbolic Shells of Revolution Via GDQ Method, Convegno Italiano “Materiali e Metodi Innovativi nell’Ingegneria Strutturale”, Catania, Italy, 4-6 July 2007. In: A. Badalà et al. (eds.), Materiali e Metodi Innovativi nell’Ingegneria Strutturale, 257-272.
  4. F. Tornabene, E. Viola (2007) - Free Vibration Analysis of Functionally Graded Doubly Curved Shell Structures Using GDQ Method, XVIII° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA 2007), Brescia, Italy, 11-14 September 2007. In: A. Carini et al. (eds.), XVIII° Congresso AIMETA di Meccanica Teorica e Applicata, 298-299.
  5. F. Tornabene (2011) - Shear and Normal Stress Recovery for Anisotropic Shells and Panels of Revolution via the GDQ Method, XX° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA 2011), Bologna, Italy, 12-15 September 2011. In: F. Ubertini et al. (eds.), XX° Congresso AIMETA di Meccanica Teorica e Applicata, 281.
  6. Tornabene, N. Fantuzzi, E. Viola (2013) - General Higher-Order Equivalent Single Layer and Layer Wise Theories for Laminated Composite Shells and Panels Using GDQ Method, XXI° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2013), Torino, Italy, 17-20 September 2013.
  7. E. Viola, F. Tornabene, N. Fantuzzi (2013) - Static Analysis of Arbitrarily Shaped Composite Plates via GDQFEM, XXI° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2013), Torino, Italy, 17-20 September 2013.
  8. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2014) - The Strong Formulation Finite Element Method: Stability and Accuracy, XX° Convegno Italiano di Meccanica Computazionale - VII Riunione del Gruppo Materiali AIMETA (GIMC-GMA2014), Cassino, Italy, 11-13 June 2014.
  9. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2015) - Static and Dynamic Analyses of Doubly-Curved Composite Thick Shells with Variable Radii of Curvatures, XXII° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2015), Genova, Italy, 14-17 September 2015.
  10. E. Viola, F. Tornabene, N. Fantuzzi, M. Bacciocchi (2015) - Structural Mechanics Applications using Strong Formulation Finite Element Method, XXII° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2015), Genova, Italy, 14-17 September 2015.
  11. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2015) - Advanced Laminated Composite Applications for Doubly-Curved Shell Structural Components with Variable Curvature, XXIII° Conference of the Italian Association of Aeronautics and Astronautics (AIDAA2015), Torino, Italy, 17-19 November 2015.
  12. R. Dimitri, N. Fantuzzi, F. Tornabene, G. Zavarise (2016) - A Comparative SFEM- and IGA-Based Numerical Prediction of the Stress Concentration Factor in Plates with Discontinuities, XXI° Convegno Italiano di Meccanica Computazionale - VIII Riunione del Gruppo Materiali AIMETA (GIMC-GMA2016), Lucca, Italy, 27-29 June 2016.
  13. F. Tornabene, N. Fantuzzi, M. Bacciocchi (2016) - Finite Element Method Based on a Strong Formulation Isogeometric Analysis, XXI° Convegno Italiano di Meccanica Computazionale - VIII Riunione del Gruppo Materiali AIMETA (GIMC-GMA2016), Lucca, Italy, 27-29 June 2016.
  14. F. Tornabene, N. Fantuzzi, M. Bacciocchi, E. Viola (2017) - Mechanical Behavior of Laminated Composite Shells with Arbitrary Domains: Comparison Between Weak and Strong Formulations, XXIII° Convegno Italiano dell’Associazione Italiana di Meccanica Teorica e Applicata (AIMETA2017), Salerno, Italy, 4-7 September 2015.
  15. F. Tornabene, M. Bacciocchi, N. Fantuzzi (2018) - Strong and Weak Formulations for the Analysis of Arbitrarily Shaped Laminated Composite Structures, XXII° Convegno Italiano di Meccanica Computazionale - IX Riunione del Gruppo Materiali AIMETA (GIMC-GMA2018), Ferrara, Italy, 13-14 September 2018.
  16. L. Leonetti, N. Fantuzzi, P. Trovalusci, F. Tornabene (2018) - The Effect of Micro-Polar Rotation in 2D Cosserat Solids, XXII° Convegno Italiano di Meccanica Computazionale - IX Riunione del Gruppo Materiali AIMETA (GIMC-GMA2018), Ferrara, Italy, 13-14 September 2018.

Consulta le pubblicazioni su IRIS

Temi di ricerca

Research Topics

  1. Research activity in “Structural Mechanics”: Theory of Plates and Shells, Theory of Arches with Variable Cross-Section and Curvature, Theory of Beams.
  2. Research activity in “Computational Mechanics”: Generalized Differential Quadrature Method, Finite Element Method, Strong Formulation Finite Elements, Time Integration Methods.
  3. Research activity in “Innovative Materials and Smart Materials”: Functionally Graded Materials, Carbon Nanotubes, Variable Angle-Tow Composites.
  4. Research activity in “Fracture Mechanics”: Orthotropic and Piezoelectric Materials.
  5. Research activity in “Elastic Stability”: Non-Conservative Forces.

Risorse correlate

Documenti