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FINITE ELEMENT ANALYSIS OF THREE-DIMENSIONAL VIBRATIONS OF THICK CIRCULAR AND ANNULAR PLATES

✍ Scribed by C.-F. LIU; Y.-T. LEE

Publisher
Elsevier Science
Year
2000
Tongue
English
Weight
170 KB
Volume
233
Category
Article
ISSN
0022-460X

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✦ Synopsis

Three-dimensional vibrations of thick circular and annular plates are analyzed by a "nite element method which, with a properly assumed set of displacement "eld, is di!erent from the traditional 3-D "nite element analysis and is reduced to a sequence of 2-D analyses one for each circumferential wave number. The present approach has several unique features: (1) It can obtain vibration frequencies which are comparable to, or as accurate as, those by other three-dimensional approaches, whenever comparisons between them are possible, and yet the formulation of the present method is simpler and its application is straightforward.

(2) Di!erent simply supported boundary conditions can be exactly imposed with the present approach. The latter feature may be quite di$cult, if not impossible, for other methods. In the present analysis, vibration frequencies of a circular and an annular plate under di!erent combinations of boundary conditions, wave numbers and "nite element meshes are calculated, vibration characteristics are examined, and some typical mode shapes are shown graphically. Then, the results of some example problems by the present method are compared to those available in the literature to show its validity and accuracy.

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The Ritz method is applied in a three-dimensional (3-D) analysis to obtain accurate frequencies for thick circular and annular plates. The method is formulated in a manner which allows one to have any combination of free or fixed plate boundaries. Admissible functions for the three displacement comp

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The objective of this work is to present a new method for the dynamic and static analysis of thin, elastic, isotropic, non-uniform circular and annular plates. The method is a combination of plate theory and finite element analysis. The plate is divided into one circular and many annular finite elem