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Static analysis of rectangular nano-plate using three-dimensional theory of elasticity
Authors:A. Alibeigloo  A.A. Pasha Zanoosi
Affiliation:1. Mech. Eng. Dep., Faculty of Engineering, Tarbiat Modares University, 14115-143 Tehran, Iran;2. Department of Biomechanical Engineering, Iran University of Science and Technology, Tehran, Iran
Abstract:Analytical solution for bending of a simply supported rectangular graphene sheets based on three dimensional theory of elasticity, is studied employing non-local continuum mechanics. By applying the Fourier series solution to the both displacement and stress field along the in-plane rectangular coordinates direction, and to the governing equation and constitutive relations, the three-dimensional governing equations in term of displacement components can be obtained. Closed form solution for the bending behavior of nano-plate is obtained by exerting the surface tractions on the state equations. To validate the accuracy and convergence of the present approach, numerical results are presented and compared with the results available in the open literature. Effect of non-local parameter, aspect ratio, thickness to length ratio and half wave numbers in the bending behavior of plate are examined. Furthermore, these results may also serve as benchmark to further results into the two-dimensional plate theories.
Keywords:Nano-plate  Static analysis  Three-dimensional  Elasticity  State space
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