Department of Mechanical and Aerospace Engineering
Politecnico di Torino, Italy
Selected Publications (For more see the link Prof. Marco Gherlone):
M. Di Sciuva, M. Gherlone, and L. Librescu, “Implications of damaged interfaces and of other non-classical effects on the load carrying capacity of multilayered composite shallow shells”, International Journal of Non-Linear Mechanics, 37, 851-867, 2002.
Sciuva MD, Gherlone M, Lomario D. Multiconstrained optimization of laminated and sandwich plates using evolutionary algorithms and higher-order plate theories. Composite Structures. 2003; 59:149–54.
Di Sciuva M., Gherlone M.: A global/local third-order Hermitian displacement field with damaged interfaces and transverse extensibility: analytical formulation. Compos. Struct. 59, 419–431 (2003)
M. Di Sciuva and M. Gherlone, “A global/local third-order Hermitian displacement field with damaged interfaces and transverse extensibility: FEM formulation”, Composite Structures, 59(4), 433-444, 2003.
Marco Gherlone, Massimiliano Mattone, Cecilia Surace, Alessandra Tassotti and Alexander Tessler, “Novel vibration-based methods for detecting delamination damage in composite plate and shell laminates”, Key Engineering Materials, Vols. 293-294, pp 289-296, 2005
Tessler A, Di Sciuva M, Gherlone M. A refined linear zigzag theory for composite beams: reformulation of zigzag function and shear stress constraints. In: Proc. 6th international symposium on advanced composites and applications for the new millennium, Corfu‘, Greece; 2007. p. 16–8.
M. Gherlone and M. Di Sciuva, “Thermo-mechanics of undamaged and damaged multilayered composite plates: a sub-laminates finite element approach”, Composite Structures, 81(1), 125-136, 2007.
M. Gherlone and M. Di Sciuva, “Thermo-mechanics of undamaged and damaged multilayered composite plates: assessment of the FEM sub-laminates approach”, Composite Structures, 81(1), 137-155, 2007
Tessler A, Di Sciuva M, Gherlone M. Refinement of Timoshenko beam theory for composite and sandwich beams using zigzag kinematics. NASA Technical Publication (November 2007).
Tessler A, Di Sciuva M, Gherlone M. Refinement of Timoshenko beam theory for composite and sandwich beams using zigzag kinematics. NASA Langley Research Center, Hampton, VA, Technical Report No. NASA/TP-2007-215086; 2007
A. Tessler, M. Di Sciuva and M. Gherlone, “A shear-deformation theory for composite and sandwich plates using improved zigzag kinematics”, Paper No. 0123456789, Proceedings of the Ninth International Conference on Computational Structures Tehnology, B.H.C. Topping and M Papadrakakis (Editors), 2008
Alexander Tessler, Marco Di Sciuva and Marco Gherlone, “Recent advances in zigzag methodology for composite beams and plates”, Virginia Tech Mechanics Conference, May 29030, 2008
A. Tessler, M. Di Sciuva, and M. Gherlone, “Recent advances toward computationally desirable zigzag bending theories for laminated composite and sandwich plates”, 13th Conference on the Mathematics of Finite Elements and Applications Brunel University (MAFELAP), UK, 9 - 12 June, 2009 (keynote lecture).
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