Issue 29

F. Tornabene et alii, Frattura ed Integrità Strutturale, 29 (2014) 251-265; DOI: 10.3221/IGF-ESIS.29.22 265 [23] Tornabene, F., Liverani, A., Caligiana, G., Laminated composite rectangular and annular plates: a GDQ solution for static analysis with a posteriori shear and normal stress recovery, Compos. Part B Eng., 43 (2012) 1847-1872. [24] Tornabene, F., Liverani, A., Caligiana, G., General anisotropic doubly-curved shell theory: a Differential Quadrature solution for free vibrations of shells and panels of revolution with a free-form meridian, J. Sound Vib., 331 (2012) 4848-4869. [25] Tornabene, F., Ceruti, A., 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 J. Mech., 3 (2013) 1- 25. [26] Tornabene, F., and Ceruti, A., Mixed static and dynamic optimization of four-parameter functionally graded completely doubly-curved and degenerate shells and panels using GDQ method, Math. Problem. Eng., 2013 (2013) 1- 33, Article ID 867079. [27] Tornabene, F., Reddy, J.N., 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, J. Indian Inst. Sci., 93 (2013) 635-688. [28] Tornabene, F., Viola, E., Static analysis of functionally graded doubly-curved shells and panels of revolution, Meccanica, 48 (2013) 901-930. [29] Tornabene, F., Viola, E., Fantuzzi, N., General higher-order equivalent single layer theory for free vibrations of doubly-curved laminated composite shells and panels, Compos. Struct., 104 (2013) 94-117. [30] Viola, E., Tornabene, F., Fantuzzi, N., General higher-order shear deformation theories for the free vibration analysis of completely doubly-curved laminated shells and panels, Compos. Struct., 95 (2013) 639-666. [31] Viola, E., Tornabene, F., Fantuzzi, N., Static analysis of completely doubly-curved laminated shells and panels using general higher-order shear deformation theories, Compos. Struct., 101 (2013) 59-93. [32] Tornabene, F., Fantuzzi, N., Viola, E., Ferreira, A.J.M., Radial basis function method applied to doubly-curved laminated composite shells and panels with a general higher-order equivalent single layer theory, Compos. Part B Eng., 55 (2013) 642-659. [33] Tornabene, F., Fantuzzi, N., Viola, E., Carrera, E., Static analysis of doubly-curved anisotropic shells and panels using CUF approach, differential geometry and differential quadrature method, Compos. Struct., 107 (2014) 675–697. [34] Tornabene, F., Fantuzzi, N., Viola, E., Reddy, J.N., Winkler-Pasternak foundation effect on the static and dynamic analyses of laminated doubly-curved and degenerate shells and panels, Compos. Part B Eng., 57 (2014) 269-296. [35] Ding, H., Shu, C., Yeo, K.S., Xu, D., Numerical computation of three-dimensional incompressible viscous flows in the primitive variable form by local multiquadric differential quadrature method, Comput. Meth. Appl. Mech. Eng., 195 (2006) 516-533. [36] Cottrell, J.A., Hughes, T.J.R., Bazilevs, Y., Isogeometric Analysis. Toward Integration of CAD and FEA, John Wiley & Sons, (2009). [37] Reali, A., An isogeometric analysis approach for the study of structural vibrations, J. Earthq. Eng., 10 (2006) 1-30.