Failure Analysis of Fiber Composites at Phase Interface

H. Edmiston, S. Nomura
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Abstract

Failure criteria of fiber reinforced composites expressed in terms of externally applied stresses are derived based on the interface stress distribution. The composite is modeled by a single inclusion surrounded by a matrix which possesses the properties of the composite. Using the Eshelby’s method and the self-consistent approximation, the interface stress can be derived analytically as a function of fiber and matrix properties and the fiber volume fraction. Using the proposed method, failure envelopes can be drawn that can properly reflect the effect of fiber shapes and anisotropy.
纤维复合材料相界面失效分析
基于界面应力分布,导出了以外应力表示的纤维增强复合材料破坏准则。复合材料的模型是由具有复合材料特性的基体包围的单个夹杂物组成。利用Eshelby方法和自洽近似,可以解析地推导出界面应力作为纤维和基体性能以及纤维体积分数的函数。利用该方法,可以绘制出能较好地反映纤维形状和各向异性影响的失效包络。
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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