Non-linear vibration analysis of laminated composite plates resting on non-linear elastic foundations

In this study, the homotopy analysis method (HAM) is used to obtain an approximate analytical solution for geometrically non-linear vibrations of thin laminated composite plates resting on nonlinear elastic foundations. Geometric non-linearity is considered using von Karman's strain displacement relations. Then, the effects of the initial deflection, ply properties, aspect ratio of the plate and foundation parameters on the non-linear free vibration is studied. Comparison between the obtained results an those available in the literature demonstrates the potential of HAM for the analysis of such vibration problems, whose governing differential equations include the quadratic and cubic non-linear terms. This study shows that only a first-order approximation of the HAM leads to highly accurate solutions for this type of non-linear problems. (C) 2010 The Franklin Institute. Published by Elsevier Ltd. All rights reserved.