金属基复合材料宏观流动/损伤表面表征的微观力学批判

C. Lissenden, S. Arnold
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引用次数: 2

摘要

通过使用微观力学解决理论和实验问题,为先进材料的鲁棒、多轴、本构模型的制定提供指导。金属基复合材料的多轴响应,用宏观流动/损伤表面来描述,在室温和高温下,使用包括粘塑性基体响应和纤维-基体脱粘在内的分析微力学模型进行预测。确定了碳化硅/钛在三个应力空间中的宏观流动/损伤面(即脱粘包络面、基体阈值面、宏观“屈服”面、恒定非弹性应变率面和恒定耗散率面)。残余应力显示,从原点抵消流动/损伤表面的中心,其形状被剥离显著改变。研究结果表明,哪种类型的流动/损伤表面应该被表征,以及应用什么载荷来为指导理论模型的开发和验证提供最有意义的实验数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Critique of Macro Flow/Damage Surface Representations for Metal Matrix Composites Using Micromechanics
Guidance for the formulation of robust, multiaxial, constitutive models for advanced materials is provided by addressing theoretical and experimental issues using micromechanics. The multiaxial response of metal matrix composites, depicted in terms of macro flow/damage surfaces, is predicted at room and elevated temperatures using an analytical micromechanical model that includes viscoplastic matrix response as well as fiber-matrix debonding. Macro flow/damage surfaces (i.e., debonding envelopes, matrix threshold surfaces, macro “yield” surfaces, surfaces of constant inelastic strain rate, and surfaces of constant dissipation rate) are determined for silicon carbide/titanium in three stress spaces. Residual stresses are shown to offset the centers of the flow/damage surfaces from the origin and their shape is significantly altered by debonding. The results indicate which type of flow/damage surfaces should be characterized and what loadings applied to provide the most meaningful experimental data for guiding theoretical model development and verification.
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