Fatigue Damage in Metal Matrix Composites

G. Voyiadjis, R. Echle
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Abstract

In recent years the design and performance of aerospace vehicles changed due to enhancement and improvement in the design and the materials employed. Special consideration has to be given to the performance of the materials chosen for such vehicles. Titanium matrix composites (TMC) have been identified among the metal matrix composites as candidate materials capable of sustaining the arising loads while maintaining their structural integrity. Material behavior during fatigue loading has to be given special consideration since this loading condition is dominant during the flight regime. Material degradation due to fatigue loading is modeled using a micro-mechanical fatigue damage model for uni-directional metal matrix composites. The evolution of damage is considered at the constituent level by employing a damage criteria for each individual constituent. The overall material damage is obtained by using the Mori-Tanaka averaging scheme. A numerical implementation of the model is used to demonstrate its capabilities by presenting the analytical results for damage evolution in the fibers as well as in the matrix material for isothermal high cycle fatigue loading. Results for varying material and model parameters are also presented.
金属基复合材料的疲劳损伤
近年来,由于设计和所用材料的改进,航空航天飞行器的设计和性能发生了变化。必须特别考虑为这类飞行器所选材料的性能。在金属基复合材料中,钛基复合材料(TMC)被认为是既能承受所产生的载荷,又能保持结构完整性的候选材料。必须特别考虑疲劳载荷期间的材料行为,因为这种载荷条件在飞行过程中占主导地位。针对单向金属基复合材料,使用微机械疲劳损伤模型对疲劳加载导致的材料退化进行建模。通过对每个单个成分采用损伤标准,在成分层面上考虑了损伤的演变。整体材料损伤通过使用 Mori-Tanaka 平均方案获得。该模型的数值实施通过提供等温高循环疲劳加载时纤维和基体材料损伤演变的分析结果来证明其能力。此外,还给出了不同材料和模型参数的结果。
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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