Investigating Elastic Stability of Cylindrical Shell with an Elastic Core under Axial Compression by Energy Method

AuthorsAli Ghorbanpour Arani, Sa'id Golabi, Abbas Logman, H. Daneshi
JournalJournal of Mechanical Science and Technology
Presented byUniversity of Kashan
Page number983-996
Volume number21
Paper TypeFull Paper
Published At2007-8-01
Journal GradeScientific - research
Journal TypeElectronic
Journal CountryKorea
Journal IndexISI ,SCOPUS

Abstract

In this paper, the elastic axisymmetric buckling of a thin, isotropic and simply supported cylindrical shell with an elastic core under axial compression has been analyzed using energy method. The nonlinear strain-displacement relations in general cylindrical coordinates are simplified using Sanders kinematic relations (Sanders, 1963) for axial compression. Equilibrium equations are obtained by using minimum potential energy together with Euler equations applied for potential energy function in cylindrical shell. To acquire stability equation of cylindrical shell with an elastic core, minimum potential energy theory and Trefftz criteria are implemented. Stability and compatibility equations for an imperfect cylindrical shell with an elastic core are also obtained by the energy method, and the buckling analysis of shell is carried out using Galerkin method. Critical load curves versus the aspect ratio are obtained and analyzed for a cylindrical shell with an elastic core. It is concluded that the application of an elastic core increases elastic stability and significantly reduces the weight of cylindrical shells.