In this paper the governing partial differential equations of symmetrically laminated thick plates including transverse shear deformation are transferred into ordindary differential equations by the use of the method of a plane wave decomposition.

Element-free galerkin method(EFGM) for the stability analysis of symmetrically laminated composite plate;

Basing Kircihhoff\'s plate theory and using the moving least-square(MLS) approximation to displacement function,EFGM is extended to solve the bending problems of symmetrically laminated composite plates.

In the present paper,the method was applied to compute symmetrically laminated composite plate,buckling load parameters of isotropic and symmetrically laminated composite plates for different boundary conditions were calculated to demonstrate the efficiency and high precision of EFGM,Consequently,the method has a promising prospect in engineering application.

Combined with the finite element method, the semi-analytical numerical method presented can be used to analyze thick composite laminates with arbitrary boundary conditions and geometrical shapes.

A bi-directional bending problem for antisymmetrically laminated angle-ply plate is studied.