Postbuckling of functionally graded cylindrical shells based on improved Donnell equations

Dao Huy Bich, Nguyen Xuan Nguyen, Hoang Van Tung
Author affiliations

Authors

  • Dao Huy Bich Hanoi University of Science, VNU, Vietnam
  • Nguyen Xuan Nguyen Hanoi University of Science, VNU, Vietnam
  • Hoang Van Tung Hanoi Architectural University, Vietnam

DOI:

https://doi.org/10.15625/0866-7136/35/1/2894

Keywords:

Postbuckling, functionally graded materials, cylindrical shells, improved Donnell theory, temperature effects

Abstract

This paper presents an analytical approach to investigate the buckling and postbuckling of functionally graded cylindrical shells subjected to axial and transversemechanical loads incorporating the effects of temperature. Material properties are assumed to be temperature independent, and graded in the thickness direction accordingto a simple power law distribution in terms of the volume fractions of constituents. Equilibrium equations for perfect cylindrical shells are derived by using improved Donnell shell theory taking into account geometrical nonlinearity. One-term approximate solution is assumed to satisfy simply supported boundary conditions and closed-form expressions of buckling loads and load-deflection curves are determined by Galerkin method. Analysis shows the effects of material and the geometric parameters, buckling mode, pre-existent axial compressive and thermal loads on the nonlinear response of the shells.

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Published

10-04-2013

Issue

Section

Research Article

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