An optimization of nonlinear bending and stability of revolutional parabolic shell with variable thickness

In this paper, to begin with, the nonlinear differential equations of a truncaled shallow spherical shell with variable thickness under uniformly distributed load are linearized by step-by-step loading method. The linear differential equations cap be solved by spline colloca,ron method. Critical loa

A finite-element algorithm is proposed to investigate the dynamic behavior of elastic shells of revolution containing a quiescent or a flowing inviscid fluid in the framework of linear theory. The fluid behavior is described using the perturbed velocity potential. The shell behavior is treated in th

In recent years, structural engineers have been gradually concerned with the analysis of cylindrical shells, which have non-circular profiles and are found to be in many engineering applications, such as aerospace, mechanical, nuclear, petrochemical, modern passenger airplanes, civil, and marine str