Modeling for cyclic loading/unloading hysteresis loops of carbon fiber-reinforced ceramic-matrix composites at room and elevated temperatures. Part I: Theoretical analysis

Li Longbiao

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Modeling for cyclic loading/unloading hysteresis loops of carbon fiber-reinforced ceramic-matrix composites at room and elevated temperatures. Part I: Theoretical analysis

机译：在室温和高温下对碳纤维增强陶瓷基复合材料的循环加载/卸载磁滞回线进行建模。第一部分：理论分析

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The hysteresis loops models of fiber-reinforced ceramic-matrix composites (CMCs) are developed based on the Coulomb friction law instead of a constant frictional shear stress usually assumed in hysteresis analysis. Based on damage mechanism of fiber slipping relative to matrix upon loading/unloading, the interface slip lengths are obtained by fracture mechanics approach. The effects of matrix stochastic cracking, fiber volume fraction, interface debonded energy, interface frictional coefficient and fiber Poisson ratio on hysteresis loops, interface slip lengths and interface slip stresses have been analyzed. (C) 2016 Elsevier Ltd. All rights reserved.

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《Engineering Fracture Mechanics》 |2016年第null期|共20页
作者
Li Longbiao;
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正文语种 eng
中图分类工程力学;
关键词
Ceramic-matrix composites (CMCs); Hysteresis loops; Interface debonding; Matrix cracking;

机译：陶瓷基复合材料（CMC）;磁滞回线;界面剥离;基体开裂;

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3. Modeling for cyclic loading/unloading hysteresis loops of carbon fiber-reinforced ceramic-matrix composites at room and elevated temperatures. Part I: Theoretical analysis [J] . Li Longbiao Engineering Fracture Mechanics . 2016,第Null期

机译：在室温和高温下对碳纤维增强陶瓷基复合材料的循环加载/卸载磁滞回线进行建模。第一部分：理论分析
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7. Failure of laminated composites at thickness discontinuities under complex loading and elevated temperatures. [D] . Lee, Sangwook. 1998

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10. Theoretical models for the ultimate strength and flaw resistance of unidirectionally-reinforced ceramic-matrix composites. Progress report, September 1989--August 1992 [R] . Steif, P. S. 1992

机译：单向增强陶瓷基复合材料的极限强度和抗力的理论模型。进展报告，1989年9月至1992年8月

Modeling for cyclic loading/unloading hysteresis loops of carbon fiber-reinforced ceramic-matrix composites at room and elevated temperatures. Part I: Theoretical analysis

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