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金属基复合材料循环硬化性能细观力学分析 被引量:2

Micromechanical Analysis of Cyclic Behaviors for Metal-Matrix Composites
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摘要 以细观力学的平均场理论为基础,给出了一种新的分析金属基复合材料循环硬化性能的增量方法,在每个增量过程中,把基体看作各向异性弹性材料来处理,然后利用Mori-Tanaka平均场理论建立了复合材料应力与应变的增量关系,应用上述方法及基体的混合强化模型,分析了SiC/金属基复合材料的循环硬化性能,并与文献的实验结果进行了比较. A new incremental method is proposed to predict the cyclic behavior of metal-matrix composites. In each incremental step, the matrix is considered to be an anisotropic material whose stiffness tensor is chosen as the tangent moduli of the matrix studied. The Eshelby tensor for an ellipsoidal inclusion embeded in an anisotropic matrix is calculated numerically. With the aid of Mori-Tanaka mean field theory and numerical solution of the Eshelby tensor, the incremental stress/strain relation of the composite is derived. The prediction of the tensile and cyclic hardening behavior for the particulate reinforced and whiskers reinforced SiC/AI metal-matrix composings agrees quantitatively well with the adults given in the literature.
作者 田峰 胡更开
机构地区 北京理工大学应用力学系
出处 《北京理工大学学报》 EI CAS CSCD 1996年第6期591-596,共6页 Transactions of Beijing Institute of Technology
基金 国家教委留学回国人员科研资助
关键词 疲劳寿命 细观力学 金属复合材料 循环硬化性能 metal-matrix composite fatigue life micromechanics
分类号 TB331 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献2

  • 1田峰,1996年
  • 2Li Y Y,J Applied Mechanics,1990年,57期,562页

同被引文献19

  • 1施惠基,贾大炜,程蕾.热机械循环载荷下短纤维增强金属基复合材料性能分析[J].机械强度,2005,27(3):345-352. 被引量:2
  • 2Tandon G P, Weng G J. A theory of particulate-reinforced plasticity. J. Appl. Mech, 1988, 55:126 - 135.
  • 3Wakashima K.Tsukamoto H.Mean—field micromechanical model and its application to the analysis of thermomechanical behavior of composite materials.Mater.Sci.&Engr,1991,A146:291-315.
  • 4Petermann H E, Plankensteiner A F, Bohm H J, et al. A thermo-elasto-plastic constitutive law for inhomogeneous materials based on an incremental Mori-Tanaka approach. Computers and Structures,1999, 71:197 - 214.
  • 5Gavazzi A C, Lagoudas D C. On the numerical evaluation of Eshelby's tensor and its application to elastoplastic fibrous composites.Computational Mechanics, 1990, 7:12 - 19.
  • 6Lagoudas D C, Gavazzi A C, Nigam H. Elastoplastic behavior of metal matrix composites based on incremental plasticity and the Mori-Tanaka averaging scheme. Computational Mechanics, 1991, 8:193-203.
  • 7Dunn M L, Taya M. Elastic-plastic thermal stresses and deformation of short-fiber composites. J. Mater. Sci., 1994, 29:2053 - 2062.
  • 8Li H Q,Wang Z G,Hiroyuki T,et al.High temperature low cycle fatigue and thermo-mechanical fatigue of a 6061 Al reinforced with SiCw.Mater.Sci.&Engr,2000,A291:235-245.
  • 9Dvorak G J. Plasticity theories for fibrous composite materials. In:Everett R K, Arsenault R J,eds, Metal Matrix Composites Mechanisms and Properties, Boston, MA:Academic Press, 1991.1-77.
  • 10Eshelby J D. The determination of the elastic field of an ellipsoidal inclusion, and related problems. Proc. Roy. Soc. Lond, 1957, A241 : 376-396.

引证文献2

二级引证文献5

北京理工大学学报
1996年 第6期

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