Free in-plane vibration analysis of rectangular plates with elastic support normal to the boundaries

The superposition method is employed to obtain buckling loads and free vibration frequencies for a family of elastically supported rectangular plates subjected to one-directional uniform in-plane loading. Two edges running in the direction of the in-plane loading are free. Lateral displacement is fo

In this paper, an accurate analytical type solution for the free vibration of clamped rectangular plates with line support along the diagonals, corner-to-corner, is developed by the superposition method. A modification of line support, as established earlier, is used and convergence tests are carrie

this paper, we consider the vibration of a thin rectangular plate supported by identical beams at two opposing sides. This plate-beam system is rigidly supported at the remaining sides. The finite-element method is used to calculate the natural frequencies for the plate-beam system and to solve the

Two distinct types of simple support boundary conditions are formulated for rectangular plates undergoing in-plane free vibration. Each type of simple support is shown to be analogous to the well known simple support edge conditions encountered in the free transverse vibration analysis of rectangula

Free vibration analysis of isotropic Mindlin plates with edges elastically restrained against rotation and translation is carred out by a variational method. The elastic restraints are assumed to be uniformly distributed along the edges. Elastically restrained Timoshenko beam functions are used as c