This paper is concerned in the dynamic plastic buckling of infinite length cylindrical shell which is rested on incompressible ideal fluid and subjected to underwater impulsive loads.

In this paper,the energy criterion is used to study the dynamic plastic buckling of cylindrical shells,which are locally subjected to a nonuniform radial impulsive loading.

An increment numerical method is used to analyze the elastic_plastic dynamic buckling of ring_stiffened cylindrical shells under axial fluid_solid impact loading on the basis of discrete stiffeners model,and taking account of large deflections and strain_rate sensitive yielding material properties.

The plastic buckling of cylindrical shells under biaxial load was studied using rigid-linear hardening model of anisotropic materials.

It shows that a newdeformation mechanism,plastic buckling,may occur when the bending resistability of cellis strong enough.