TORSION OF RIGID CIRCULAR SHAFT OF VARYING DIAMETER EMBEDDED IN AN ELASTIC HALF SPACE

Applied Mathematics and Mechanics (English Edition) ›› 1988, Vol. 9 ›› Issue (5): 449-453.

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TORSION OF RIGID CIRCULAR SHAFT OF VARYING DIAMETER EMBEDDED IN AN ELASTIC HALF SPACE

Yun Tian-quan

Department of Mathematics and Mechanics, South China Institute of Technology, Guangzhou

Received:1987-02-28 Online:1988-05-18 Published:1988-05-18
Supported by:
Project Supported by the National Science Foundation of China

Abstract

Abstract: The axially symmetric torsion of rigid circular shaft of varying diameter embedded in an elastic half space is studied by line-loaded integral equation method (LLJEM), where the problem is formulated by distributions of ficitious fundamental loads PRCHS (point ring couple in half space) along the axis of symmetry in interval of the shaft and is reduced to a one-dimensional and non-singular Fredholm integral equation of the first kind and is easily solved numerically. Numerical examples oftorsin of rigid conic, cylinder, conical-cylinder embedded in an elastic half space are given and compared with the known result obtained, by the others. The exact solution of torsion of rigid half sphere embedded in an elastic half space is also presented.

Key words: nonlinear Lur’e systems, circle criterion, absolute stabilization, H_∞ control, LMI

Yun Tian-quan . TORSION OF RIGID CIRCULAR SHAFT OF VARYING DIAMETER EMBEDDED IN AN ELASTIC HALF SPACE. Applied Mathematics and Mechanics (English Edition), 1988, 9(5): 449-453.

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TORSION OF RIGID CIRCULAR SHAFT OF VARYING DIAMETER EMBEDDED IN AN ELASTIC HALF SPACE

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