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3-D vibration analysis of annular sector plates using the Chebyshev–Ritz method

Author:
D. Zhou   S.H. Lo   Y.K. Cheung  


Journal:
Journal of Sound and Vibration


Issue Date:
2009


Abstract(summary):

The three-dimensional free vibration of annular sector plates with various boundary conditions is studied by means of the Chebyshev-Ritz method. The analysis is based on the three-dimensional small strain linear elasticity theory. The product of Chebyshev polynomials satisfying the necessary boundary conditions is selected as admissible functions in such a way that the governing eigenvalue equation can be conveniently derived through an optimization process by the Ritz method. The boundary functions guarantee the satisfaction of the geometric boundary conditions of the plates and the Chebyshev polynomials provide the robustness for numerical calculation. The present study provides a full vibration spectrum for the thick annular sector plates, which cannot be given by the two-dimensional (2-D) theories such as the Mindlin theory. Comprehensive numerical results with high accuracy are systematically produced, which can be used as benchmark to evaluate other numerical methods. The effect of radius ratio, thickness ratio and sector angle on natural frequencies of the plates with a sector angle from 120deg to 360deg is discussed in detail. The three-dimensional vibration solutions for plates with a re-entrant sector angle (larger than 180deg) and shallow helicoidal shells (sector angle larger than 360deg) with a small helix angle are presented for the first time. [All rights reserved Elsevier].


Page:
421-437


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