Failure Development in Particulate Composites

A. Rubinstein, Peng Wang
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Abstract

We present a model capable of evaluation of principal micromechanical processes taking place in brittle matrix composites reinforced by ductile particles. The reinforcing mechanism is based on formation of a system of restrictive forces imposed on the crack surfaces by the plastic particles behind the propagating crack front. The particles form the bridging zone and, thus, constrain the crack opening. This is the principal aspect of the toughening mechanism in these systems. The developed model addresses the effects associated with the discrete particle distribution and particle-matrix interface properties. The developed analytical approach allows us to trace the crack propagation through this system at any intermediate step. This detailed analysis explains certain aspects of the particulate reinforcement mechanism not discussed in the literature previously. The crack growth resistance curves are presented for several composite systems.
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颗粒复合材料的失效发展
我们提出了一个模型,能够评估主要的微观力学过程发生在脆性基复合材料的韧性颗粒增强。增强机制是基于在扩展的裂纹前沿后面的塑性颗粒施加在裂纹表面上的约束力系统的形成。颗粒形成桥接区,从而约束裂纹的张开。这是这些体系中增韧机制的主要方面。开发的模型解决了与离散颗粒分布和颗粒-基质界面特性相关的影响。所开发的分析方法使我们能够在任何中间步骤通过该系统跟踪裂纹扩展。这一详细的分析解释了先前文献中未讨论的颗粒增强机制的某些方面。给出了几种复合材料体系的裂纹扩展阻力曲线。
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