Thin plates of variable thickness with linear flexural rigidity

The Rayleigh-Ritz method has been employed to study the axisymmetric transverse vibration of a circular plate with two different linear variations in thickness; one in the central core and the other in the outer annular region. The boundary has been taken either clamped or simply supported. Results

A semi-analytical method based on the "nite strip technique in conjunction with the transition matrix is applied to investigate the #exural vibration of orthotropic rectangular plates of variable thickness in one direction. The e!ect of orthotropy, aspect ratio, and taper ratio on the natural freque

The Rayleigh-Ritz method has been used to study the transverse vibrations of skew plates of variable thickness with different combinations of boundary conditions at the four edges. The two-dimensional thickness variation is taken as the Cartesian product of linear variations along the two concurrent

Transverse vibration of a triangular plate with thickness varying as a linear function of co-ordinates in the plane of the plate has been solved by working out several approximations in the Rayleigh-Ritz method. The basis functions are chosen so that the essential boundary conditions are satisfied.