Asymmetric compressive stability of rotating annular plates

Authors

  • Y Kiani Faculty of Engineering, Shahrekord University, Shahrekord, Iran
  • H. Bagheri Mechanical Engineering Department, Amirkabir University of Technology, Tehran, Iran
  • M. R. Eslami Mechanical Engineering Department, Amirkabir University of Technology, Tehran, Iran

DOI:

https://doi.org/10.13052/ejcm1958-5829.2843

Keywords:

Annular plate; rotation; uniform compression; generalised differential quadrature

Abstract

In the present research, buckling behaviour of an isotropic homogeneous rotating annular plate subjected to uniform compression on both inner and outer edges is analysed. It is further assumed that the plate is rotatingwith a constant angular speed. Formulation is based on the first order shear deformation plate theory, which is valid for thin and moderately thick plates. The complete set of equilibrium  quations and the associated boundary conditions are obtained for the plate. Prebuckling loads of the plate are obtained under flatness and axisymmetric deformations. Using the adjacent equilibrium riterion, the linearised stability equations are extracted. An asymmetric stability analysis is performed to obtain the critical buckling loads of the plate and the buckled configurations of the rotating plate. To this end, trigonometric functions through the circumferential direction and the generalised differential quadrature discretization across the radial direction are used which result in an algebraic eigenvalue problem. Benchmark results are given in graphical presentations for combinations of free, simply-supported, sliding supported, and clamped types of boundary conditions. It is shown that rotation enhances the buckling loads of the plate for all types of boundary conditions and alters the buckled shape of the plate.

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Published

2019-10-18

How to Cite

Kiani, Y., Bagheri, H., & Eslami, M. R. (2019). Asymmetric compressive stability of rotating annular plates. European Journal of Computational Mechanics, 28(4), 325–350. https://doi.org/10.13052/ejcm1958-5829.2843

Issue

2019: Vol28 Iss 4

Section

Original Article