纤维增强金属基复合材料热机械循环加载力学模型

MECHANICAL MODEL OF FIBER REINFOCED MMCs UNDER CYCLIC THERMOMECHANICAL LOADING

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摘要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Bodner Partom模型作为金属的基本本构关系。 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 viscoplastic 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.

作者牛莉莎郑岩胡齐阳施惠基

机构地区清华大学工程力学系

出处《机械强度》 CAS CSCD 北大核心 2004年第z1期110-114,共5页 Journal of Mechanical Strength

基金国家重点基础研究规划项目 (G1 9990 650 ) 国家自然科学基金项目 (1 0 2 760 2 0 ) (50 371 0 4 2 )资助~~

关键词纤维增强金属基复合材料涂层效应粘塑性热机械加载 Fiber-reinforced metal matrix composites Coating effects Viscoplasticity Thermomechanical loading

分类号 TB333 [一般工业技术—材料科学与工程] O343.6 [理学—固体力学]

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1[1]Bao G, McMeeking R M. Thermomechanical fatigue cracking in fiber reinforced metal-matrix composites. Journal of Mech. Phys. Solids,1995, 42(9): 1 433 ～ 1 460. 被引量：1
2[2]Neu R W, Coker D, Nicholas T. Cyclic behavior of unidirectional and cross-ply Titanium matrix composites. International Journal of Plasticity, 1996, 12(3):361 ～ 385. 被引量：1
3[3]Robertson D D, Mall S. Micromechanical analysis for thermoviscoplastic behavior of unidirectional fibrous composites. Composites Science and Technology, 1994, 50:483 ～ 496. 被引量：1
4[4]Seung-Jo Kim, Eui-Sup Shin. A thermoviscoplastic theory for composite materials by using a matrix-partitioned unmixing-mixing scheme. Journal of Composite Materials, 1996, 30(15): 1 647 ～ 1 669. 被引量：1
5[5]Aboudi J. Mechanics of composite materials-A unified micromechanical approach. New York:Elservier, 1991. 33 ～ 110. 被引量：1
6[6]Warwick C M, Clyne T W. Development of a composite coaxial cylinder stress analysis model and its application to SiC monofilament for use in reactive metallic matrices. Acta. Met. et Mat. , 1991, 39:437 ～ 444. 被引量：1
7[7]Yozo Mikata, Minoru Taya. Stress field in a coated continuous fiber composite subjected to thermo-mechanical loading. Journal of Composite Materials, 1985, 19:554 ～ 559. 被引量：1
8[8]Sung Kyu Ha, Quiling Wang, Fu-Kuo Chang. Modeling the viscoplastic behavior of fiber-reinforced thermoplastic matrix composites at elevated temperatures. Journal of Composites Materials, 1991, 25-April: 334 ～374. 被引量：1
9[9]Chan K S, Lindholm U S. Inelastic deformation under nonisothermal loading. Journal of Engineering Materials and Technology, 1990,112-Jan: 15 ～ 25. 被引量：1
10[10]Bodner S R, Partom Y. Constitutive equations for elastic-viscoplastic strain hardening materials. ASME Journal of Applied Mechanics, 1975,42: 385. 被引量：1

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纤维增强金属基复合材料热机械循环加载力学模型

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