Calculation of the Stress Intensity Factor in an Inclusion-Containing Matrix

Claude Lincourt, J. Lanteigne, M. Krishnadev, C. Blais
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引用次数: 1

Abstract

The intent of this paper is to propose an engineering approach to estimate the stress intensity factor of a micro crack emerging from an inclusion in relation with the morphology of the inclusion and its relative stiffness with the matrix. A micromechanical model, based on the FEA (finite element analysis) of the behavior of cracks initiated at micro structural features such as inclusions, has been developed using LEFM (Linear Elastic Fracture Mechanics) to predict the stress intensity factor of a micro crack emerging from an inclusion. Morphology of inclusions has important connotations in the development of the analysis. Stress intensity factor has been estimated from the FEA model for different crack geometries. Metallographic analysis of inclusions has been carried out to evaluate the typical inclusion geometry. It also suggests that micro cracks less than 1 μm behave differently than larger cracks.
含夹杂矩阵中应力强度因子的计算
本文的目的是提出一种工程方法,根据夹杂物的形态及其与基体的相对刚度来估计夹杂物产生的微裂纹的应力强度因子。基于夹杂物等微观结构特征处裂纹行为的有限元分析,利用线性弹性断裂力学(LEFM)建立了一个微观力学模型,以预测夹杂物产生的微裂纹的应力强度因子。夹杂物的形态对分析的发展具有重要的意义。应力强度因子已根据不同裂纹几何形状的有限元分析模型进行估算。对夹杂物进行了金相分析,以评估典型的夹杂物几何形状。它还表明,小于1μm的微裂纹的行为与较大的裂纹不同。
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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