钛基复合材料疲劳损伤建模与寿命预测

P. C. Wang, J. Yang, A. Mal
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引用次数: 0

摘要

疲劳加载过程中基体开裂、界面剥离和纤维断裂等微观组织损伤的演化导致了纤维增强钛基复合材料力学性能的逐步退化。提出了一种基于力学的疲劳寿命预测方法,以模拟不同应力水平下疲劳损伤的演变、力学性能的退化和疲劳寿命的分布。模拟的基体裂纹扩展速率、残余刚度、残余抗拉强度和疲劳寿命也与实验结果相关。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fatigue Damage Modeling and Life Prediction of Titanium Matrix Composites
The evolution of microstructural damage during fatigue loading, which includes matrix cracking, interfacial debonding, and fiber fracture results in the progressive degradation of mechanical properties of the fiber-reinforced titanium matrix composites. A mechanism-based fatigue life prediction methodology was developed to simulate the evolution of fatigue damage, degradation of mechanical properties, and distribution of fatigue lives under various applied stress levels. The simulated matrix crack propagation rates, residual stiffness, residual tensile strength, and fatigue life are also correlated with experimental results.
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