【作者】 牛莉莎； 郑岩； 胡齐阳； 施惠基；

【Author】 Hui-Ji Shi, Yah Zheng, Qi-Yang Hu and Li-Sha Niu Department of Engineering Mechanics, Tsinghua University, Beijing 100084 P. R. China

【机构】 清华大学工程力学系；

【摘要】 本文着重论述考虑涂层效应的纤维增强金属基复合材料的热机械加载细观力学模型。在假设基底金属为粘塑性材料,纤维与涂层为横观各向同性弹性材料的前提下,从复合材料内部组分的细观力学关系入手,利用平均应力应变的概念,分析了材料在热机械载荷作用下的应力应变关系。针对金属基底的粘塑性特性,选择了Bodner-Partom模型作为金属的基本本构关系,并进一步将主要问题归纳为可以数值求解的以时间为自变量的一阶常微分方程组的初值问题。更多还原

【Abstract】 In this paper a micromechanical model of fiber-reinforced metal matrix composites is established with considering the coating effects. During the investigation, the coatings and fibers are assumed to have a linearly elastic behavior, but the matrix respond viscoplastically with temperature. Micro-mechanics theories using the concepts of average stress and strain are adopted and developed to integrate matrix, coating and fiber properties for predicting the stress-strain response under thermomechanical loading. Considering the viscoptastic behavior of metal matrix, the Bodner-Partom unified theory is used as the basic constitutive equations of metal matrix. The main problem is reduced to a set of the ordinary differential equations of one order that can be resolved by numerical solution algorithms,更多还原