On load interaction in the non linear buckling analysis of cylindrical shells

A technique is presented for simulating simply supported boundary conditions in axial cylinder buckling experiments. An il~ternal mandrel is employed. The geometric and material constants of the mandrel can be carefully selected allowing it to expand, through a Poisson effect, at the same rate as th

A solving method is applied to conduct research on the non-linear thermal buckling behavior of local delamination near the surface of ÿber-reinforced laminated cylindrical shell. The shape of delaminated region considered is elliptic, triangular and lemniscates. Young's modulus and the thermal expan

In this study, the non-linear buckling behavior of cross-ply laminated orthotropic truncated conical shells under axial load has been investigated. The basic relations of the cross-ply laminated orthotropic truncated conical shells are derived using the von Karman-Donnell-type of kinematic non-linea

The study of axial compression buckling of isotropic cylinders has received much attention by various researchers over the years. It is commonly acknowledged that the presence of minute imperfections significantly reduces potential buckling loads in comparison with classical linear predictions. This