Inverse analysis related to stress separation in thermoelastic stress analysis

JSME international journal. Series A, mechanics and material engineering Pub Date : 1997-04-15 DOI:10.1299/JSMEA1993.40.2_108

K. Kishimoto, H. Inoue, Hideo Shinbo, T. Shibuya

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引用次数: 12

Abstract

Thermoelastic stress analysis(TSA) is a technique for measuring stresses through temperature changes induced by the thermoelastic effect of elastic bodies. Since the TSA can only provide the sum of the principal stresses, stress separation is required to obtain individual stress components. This paper deals with stress separation of TSA data. The problem is divided into two: (1) an inverse problem to estimate the unknown boundary values from the sum of the principal stresses inside the body, and (2) a direct problem to derive the stress components inside the body on the basis of the estimated boundary values. This two-step method can be applied to a wide range of practical problems if both the inverse and direct problems are solved by FEM or BEM. In this study, the problem is formulated by BEM. It is shown that careful treatment of the inverse problem is essential for attaining an accurate result of the stress separation. The combination of the truncated singular value decomposition and Hansen's L-curve method is found to be effective for the purpose.

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热弹性应力分析中与应力分离有关的逆分析

热弹性应力分析(TSA)是一种通过弹性体的热弹性效应引起的温度变化来测量应力的技术。由于TSA只能提供主应力的总和，因此需要进行应力分离以获得单个应力分量。本文研究了TSA数据的应力分离问题。该问题分为两部分:(1)由体内主应力和估计未知边界值的反问题;(2)根据估计的边界值推导出体内应力分量的直接问题。如果用有限元法或边界元法求解逆问题和正问题，这种两步法可以应用于广泛的实际问题。在本研究中，问题是用边界元法表示的。结果表明，要得到准确的应力分离结果，必须仔细处理反问题。截断奇异值分解与Hansen l曲线法相结合是一种有效的方法。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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JSME international journal. Series A, mechanics and material engineering

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