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复合材料跨尺度失效准则及其损伤演化 被引量:14

Composite multiscale failure criteria and damage evolution
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摘要 提出了一种新的基于物理失效模式的复合材料跨尺度失效准则,从细观层面分别对纤维和基体的失效模式进行了表征,将纤维失效分为拉伸失效和压缩失效,将基体失效分为膨胀失效和扭曲失效。建立了相应的失效准则及损伤演化方法。通过正方形和六边形的代表体积单元(RVE)模型,计算了宏观应力到细观应力的机械应力放大系数和热应力放大系数。以IM7/5250-4复合材料拉伸试验作为算例对失效模型进行了验证。计算结果与试验结果吻合较好,表明跨尺度失效准则能够准确预测复合材料层合板的破坏。 A new composite multiscale failure criteria based on mechanical failure mode was proposed,failure modes of fiber and matrix were characterized at the meso level,in which the fiber failure was divided into tension failure and compression failure,as well as the matrix failure was divided into dilatation failure and distortion failure.Corresponding failure criteria and damage evolution method were established.By means of square and hexagon representative volume element(RVE) models,mechanical stress amplification factors and thermal stress amplification factors which relate macro stresses and meso stresses were calculated.IM7/5250-4 composite tensile experiments were taken as an example to verify the failure model.Simulation results fit well with experiment results,which shows that the multiscale failure criteria is able to precisely forecast the failure of composite laminates.
作者 李星 关志东 刘璐 黎增山
机构地区 北京航空航天大学航空科学与工程学院
出处 《复合材料学报》 EI CAS CSCD 北大核心 2013年第2期152-158,共7页 Acta Materiae Compositae Sinica
基金 国家重点基础研究发展计划(973计划)(2010CB631103)
关键词 复合材料 失效准则 跨尺度 损伤演化 代表体积单元 composite material failure criteria multiscale damage evolution representative volume element
分类号 V257 [一般工业技术—材料科学与工程] TB330.1 [一般工业技术—材料科学与工程]
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参考文献20

  • 1杜善义,关志东.我国大型客机先进复合材料技术应对策略思考[J].复合材料学报,2008,25(1):1-10. 被引量:286
  • 2Hinton M J, Kaddour A S, Soden P D. Failure criteria in fibre- reinforced-polymer composites: The world-wide failure exercise [M]. Amsterdam: Elsevier Ltd, 2004.
  • 3Committee on New Materials for Advanced Civil Aircraft National Materials. Advisory Board. New materials for next- generation commercial transports [M]. Washington D C: National Academy Press, 1996.
  • 4Hahn G L. Accelerated insertion of materials- composites (AIM-C) methodology [R]. St Louis: Boeing, 2004.
  • 5Gosse J H, Christensen S. Strain invariant failure criteria for polymers in composite materials [C]. Seattle, WA, United States: American Inst. Aeronautics and Astronautics Inc, 2001.
  • 6Mayes J S, Hansen A C. Composite laminate failure analysis using multicontinuum theory [J ]. Composites Science and Technology, 2004, 64(3/4): 379-394.
  • 7Soutis C, Beaumont P W R. Multi - scale modelling of composite material systems: The art of predictive damage modelling [M]. Cambridge : Woodhead Publishing in Materials, 2005, 259-277.
  • 8Ha S K, Jin K K, Huang Y. Micro-mechanics of failure (MMF) for continuous fiber reinforced composites[J]. Journal of Composite Materials, 2008, 42(18): 1873-1895.
  • 9Ha S K, Huang Y, Han H H, et al. Micromechanics of failure for ultimate strength predictions of composite laminates [J]. Journal of Composite Materials, 2010, 44(20): 2347- 2361.
  • 10Li R, Kelly D, Crosky A. An evaluation of failure criteria for matrix induced failure in composite materials [J]. Composite Structures, 2002, 57(1) : 385-391.

二级参考文献28

  • 1孙侠生,胡红东.国外民用飞机结构强度技术的发展思路研究[J].航空科学技术,2004(6):23-26. 被引量:10
  • 2胡红东,孙树栋.欧美加强民用航空复合材料技术开发[J].国际航空,2007(5):63-65. 被引量:3
  • 3Ng S J, Felsecker A, Meilunas R, et al. Sift analysis of IM7/5250-4 composites[C]/ / International SAMPE Technical Conference. San Diego California, 2004: 129-141.
  • 4Chamis C C, Sinclair J H. Ten-degree off-axis test for shear properties in fiber composites [J]. Experimental Mechanics, 1977, 9: 339-346.
  • 5Hinton M J, Soden P D.Predicting failure in composite laminates: The background to the exercise [J]. Comp Sci & Tech, 1998, 58(7): 1001-1010.
  • 6Rowlands R E. Strength (failure) theories and their experimental correlation [M]/ / Sih G C, Skura A M. Failure Mechanics of Composites. North-Holland, Amsterdam: EIsevier Science Pub Co, 1985: 71-125.
  • 7Nahas M N. Survey of failure and post-failure theories of laminated fiber-reinforced composites [J]. J Comp Tech & Res, 1986, 8(4): 138-153.
  • 8Labossiere P, Neal K W.Macroscopic failure criteria for fiber-reinforced composite materials [J]. Solid Mech Arch, 1987,12: 439-450.
  • 9Echaabi J, Trochu F, Gauvin R. Review of failure criteria of fibrous composite materials [J]. Polymer Composites, 1996, 17(6): 786-798.
  • 10Committee on New Materials for Advanced Civil Aircraft National Materials Advisory Board. New materials for next-generation commercial transports [M]. Washington D C: National Academy Press, 1996: 1-3.

共引文献293

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二级引证文献48

复合材料学报
2013年 第2期

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