期刊文献+

DEFORMATION ANALYSIS AND FAILURE MODELLING OF WOVEN COMPOSITE PREFORM IN GENERAL BIAS EXTENSION 被引量:2

DEFORMATION ANALYSIS AND FAILURE MODELLING OF WOVEN COMPOSITE PREFORM IN GENERAL BIAS EXTENSION
原文传递
导出
摘要 A series of bias extension tests was carried out on balanced plain woven composite preforms with various aspect ratios, disclosing that different aspect ratios may result in differ- ent initial failures. An energy method is adopted to quantify several deformation modes. By the competition of the required energies, the initial failure is predicted, showing a good accordance with the experimental observation. The results of the present research are valuable for the further understanding of the material's behaviour in bias extension test. It also provides an effective way for modelling the material's formability in other more complicated forming processes. A series of bias extension tests was carried out on balanced plain woven composite preforms with various aspect ratios, disclosing that different aspect ratios may result in differ- ent initial failures. An energy method is adopted to quantify several deformation modes. By the competition of the required energies, the initial failure is predicted, showing a good accordance with the experimental observation. The results of the present research are valuable for the further understanding of the material's behaviour in bias extension test. It also provides an effective way for modelling the material's formability in other more complicated forming processes.
出处 《Acta Mechanica Solida Sinica》 SCIE EI 2012年第3期277-284,共8页 固体力学学报(英文版)
关键词 band-gap materials periodic structure FORMING FAILURE energy methods band-gap materials, periodic structure, forming, failure, energy methods
  • 相关文献

参考文献11

  • 1Cogswell,F.N., Thermoplastic Aromatic Polymer Composites: A Study of the Structure, Processing and Properties of Carbon Fibre Reinforced Polyetheretherketone and Related Materials. Mumbai: Jaico Pub- lishing House, 1995.
  • 2Tucker,C.L., Advanced Composites Manufacturing. New York: Wiley, 1997.
  • 3Skelton,J., Fundamentals of fabric shear. Textile Research Journal, 1976, 862-869.
  • 4Lebrun,G., Bureau,M.N. and Denault,J., Evaluation of bias-extension and picture-frame test methods for the measurement of intraply shear properties of PP/glass commingled fabrics. Composite Structures, 2003, 61: 341-352.
  • 5Harrison,P, Clifford,M.J. and Long,A.C., Shear characterization of woven textile composites: a comparison between picture frame and bias extension experiments. Composites Science and Technology, 2004, 64: 1453- 1465.
  • 6Arndt,R.D., Fabric preforming for structural reaction injection molding. In: Proceedings of Conference on Advanced Composite Materials: New Developments and Applications, 1991: 35-40.
  • 7Gutowski,T.G., Dillon,G., Chey, S. and Li,H., Laminate wrinkling scMing laws for ideal composites. Com- posites Manufacturing, 1995, 6: 123-134.
  • 8Potter,K.D., The influence of accurate stretch data for reinforcements on the production of complex struc- tural mouldings. Composites, 1979, 161-167.
  • 9Wang,J., Page,R. and Paton,R., Experimental investigation of the draping properties of reinforcement fabrics. Composites Science and Technology, 1998, 58: 229-237.
  • 10Zhu,B., Yu,T.X. and Tao,X.M., Large deformation and slippage mechanism of plain woven composite in bias extension. Composites Part A, 2007, 38: 1821-1828.

同被引文献10

  • 1林国昌,万志敏,杜星文.预浸机织织物二维剪切性能模型[J].复合材料学报,2006,23(5):149-153. 被引量:4
  • 2ABED B, MSAHLI S. Study of woven fabric shear behaviour [J]. Journal of The Textile Institute, 2011, 102(4): 322-331.
  • 3HIVET G, DUONG A V. A contribution to the analysis of the intrinsic shear behavior of fabrics[J]. Journal of Composite Ma- terials, 2010, 45(6): 695-716.
  • 4KAWABATA S, NIWA M, KAWAI H. The finite-deformation theory of plain-weave fabrics part III: The shear-deformation theory[J]. Journal of the Textile Institute, 1973, 64(2): 62- 85.
  • 5LIU L, CHEN J L, GORCZYCA J L, et al. Modeling of fric- tion and shear in thermostamping of composites - part II [J]. Journal of Composite Materials, 2004, 38 ( 21 ) : 1931- 1947.
  • 6ZHU B, YU T X, TAO X M. Large deformation and slippage mechanism of plain woven composite in bias extension [J]. Composites Part A: Applied Science and Manufacturing, 2007, 38(8): 1821-1828.
  • 7ZHU B, YU T X, TAO X M. An experimental study of in- plane large shear deformation of woven fabric composite [J]. Composites Science and Technology, 2007,67(2 ):252-261.
  • 8LIN H, CLIFFORD M J, LONG A C, et al. Finite element modelling of fabric shear [J]. Modelling and Simulation in Ma- terials Science and Engineering, 2009, 17( 1 ):8-15.
  • 9张一帆,陈利,孙绯,孙颖,李艳亮,唐邦铭,梁子青.预定型机织物剪切变形实验研究[J].复合材料学报,2009,26(3):29-34. 被引量:10
  • 10J.J.XIONG,R.A.SHENOI.General aspects on structural integrity[J].Chinese Journal of Aeronautics,2019,32(1):114-132. 被引量:11

引证文献2

二级引证文献1

相关作者

内容加载中请稍等...

相关机构

内容加载中请稍等...

相关主题

内容加载中请稍等...

浏览历史

内容加载中请稍等...
;
使用帮助 返回顶部