A Systematic Shear-Lag Approach for Analyzing the Failure Mechanisms in Ceramic Matrix Composites

D. D. Robertson, J. Solti, S. Mall
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引用次数: 1

Abstract

The present study examines various damage progression criteria to provide input to a shear-lag analysis of ceramic matrix composites (CMCs). The shear-lag as well as other analysis methods require matrix and fiber crack densities in addition to interfacial debond lengths as input to the analysis before the composite behavior can be approximated. The present approach examines criteria for damage progression consisting of a critical matrix strain energy to control matrix crack density, a Weibull-type damage progression scheme for fiber cracks, and ultimate interfacial shear stress to provide debond lengths. Fatigue modeling is also accomplished through an effective fiber pullout where the eventual failure in fatigue is modeled by the available elastic energy exceeding the work to fiber pullout.
陶瓷基复合材料破坏机制的系统剪切滞后分析方法
本研究考察了各种损伤进展标准,为陶瓷基复合材料(cmc)的剪切滞后分析提供了输入。剪切滞后以及其他分析方法需要将基体和纤维裂纹密度以及界面脱粘长度作为分析的输入,然后才能近似计算复合材料的行为。目前的方法研究了损伤进展的标准,包括控制基体裂纹密度的临界基体应变能,纤维裂纹的威布尔型损伤进展方案,以及提供脱粘长度的极限界面剪应力。疲劳建模也可以通过有效的纤维拔出来完成,其中疲劳的最终破坏是通过可用的弹性能量超过纤维拔出的功来建模的。
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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