Contact Analysis and Optimization of Elastic Orientating Component by Finite Element Method

Abstract:

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In this paper, the strength and deformation of an elastic orientating component (sleeve) were analyzed by Finite Element Method (FEM). The highest stress of the part and the relationship between the dimension and deformation were found. The position under the critical situation was obtained. The optimal dimension of the sleeve was given.

Info:

Periodical:

Materials Science Forum (Volumes 532-533)

Edited by:

Chengyu Jiang, Geng Liu, Dinghua Zhang and Xipeng Xu

Pages:

893-896

Citation:

D. L. Liu et al., "Contact Analysis and Optimization of Elastic Orientating Component by Finite Element Method", Materials Science Forum, Vols. 532-533, pp. 893-896, 2006

Online since:

December 2006

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Price:

$38.00

[1] C.Q. Xie: Finite Element Method in the Elastic Mechanism (Mechanical Press, Beijing 1981).

[2] A.B. Chandhary: A Solution Method for Static and Dynamic Analysis of Three-Dimensional Contact Problems with Friction, Computer and Structure, (1986).

[3] R.F. Li and J.X. Gong: Numeric analysis of Contacting and its application in the Mechanical Designing (Chonqing University Press).

[4] M.S. Xu: Manual of Mechanical Parts for Selecting and designing (Mech. Press, Beijing 1996).

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