陶瓷基复合材料的疲劳:损伤机制和疲劳寿命图

R. Talreja
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引用次数: 4

摘要

陶瓷基复合材料(cmc)提供比单片陶瓷更高的强度和韧性,以及耐高温性能。这些材料的韧性机制已经得到了广泛的研究,尽管在表征这一特性方面存在一些混乱,但最近已经以系统的方式解决了这一问题(Sorensen和Talreja 1995)。然而,在大多数工程应用中,更重要的是cmc的长期行为保持在安全状态。特别是,循环荷载下的刚度和强度退化是一个主要问题。
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Fatigue of Ceramic Matrix Composites: Damage Mechanisms and Fatigue Life Diagrams
Ceramic matrix composites (CMCs) provide higher strength and toughness properties than are possible from monolithic ceramics, in addition to the high temperature resistance. The mechanisms of toughness of these materials have been treated extensively, although some confusion exists in characterizing this property, which has been recently addressed in a systematic manner (Sorensen and Talreja 1995). It is, however, of greater importance in most engineering applications that the long term behavior of CMCs remains in a safe regime. In particular, degradation of stiffness and strength under cyclic loading is a major concern.
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