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芳纶正交结构板材的制作及复合工艺

Processing of kevlar orthogonal structured composite plate
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摘要 用芳纶纤维复丝为纤维增强材料,配合环氧树脂为基体材料,进行三维正交结构的板材制作。采用平板硫化机层压成型工艺和真空辅助树脂扩散成型(VARIM)对所制作的板材进行复合工艺处理,探讨不同黏度的树脂配比对成品制作过程的影响。结果表明:芳纶纤维较为光滑,纤维间的摩擦力较小,难以形成稳定的织物结构,需要增加芳纶纤维表面的摩擦性能;树脂与固化剂配比高(即树脂黏度低)的基体材料在复合工艺中渗透能力更强,更易形成由内至外均匀的复合材料。 The orthogonal structured composite plate was manufactured by using kevlar as reinforced fiber and epoxy resin as matrix. Pressure molding technology and vacuum resin infusion method (VARIM) were adopted to make composite plate. It is found that, in the manufacturing process, in order to increase the weave-ability of the kevlar fiber, higher friction is needed to take over the slippery performance of the kevlar fiber during weave operation. In the composite molding process, higher mixture ratio of resin and hardener can increase the penetration performances of resin and the composite is more even in its appearance from inner to outside for the final product.
作者 龚小舟 邓亚宇 倪露露 吴斌
机构地区 武汉纺织大学
出处 《兵器材料科学与工程》 CAS CSCD 北大核心 2014年第2期73-77,共5页 Ordnance Material Science and Engineering
关键词 芳纶 高性能纤维 三维正交结构 环氧树脂 长纤维增强复合材料 kevlar high performance fiber 3D orthogonal structure epoxy resin long fiber reinforced composite
分类号 TS104.2 [轻工技术与工程—纺织工程]
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参考文献5

  • 1陈革,刘家强,甘学辉,等.一种立体织机开口装置:中国,102517741A[P].2012-06-27.
  • 2Tong L,Mouritz AP,Bannister.3D纤维增强聚合物基复合材料[M].黄涛,矫桂琼,译.北京:科学出版社,2007:11-16.
  • 3董孚允,王春敏.三维纺织品复合材料的发展和应用[D].天津:天津工业大学,2001.
  • 4戎琦,邱夷平.二维与三维机织复合材料力学性能的实验研究[J].国际纺织导报,2006,34(11):54-56. 被引量:4
  • 5杨涛.正交立体板材的制备及工艺[D].武汉:武汉纺织大学,2012.

二级参考文献12

  • 1Tan P, Tong L Y, Steven G P, et al. Behavior of 3D orthogonal woven CFRP composites. Part I. Experimental investigation,Composites Part A. Applied Science and Manufacturing, 2000, 31 (3) : 259 - 271
  • 2Tan P, Tong L Y, Steven G P. Mechanical behavior for 3D orthogonal woven E-glass/epoxy composites. Journal of Reinforced Plastics and Composites, 2001, 20(4) : 274-303
  • 3Naik N K, Azad S N M, Prasad P D, et al.Stress and failure analysis of 3D orthogonal interlock woven composites. Journal of Reinforced Plastics and Composites, 2001, 20(17):1485-1523
  • 4Naik N K, Sridevi E. An analytical method for thermoelastic analysis of 3 D orthogonal interlock woven composites. Journal of Reinforced Plastics and Composites, 2002, 21(13) : 1149-1191
  • 5Callusa P J, Mouritza A P, Bannisterb M K, et al. Tensile properties and failure mechanisms of 3D woven GRP composites.Composites: Part A, 1999, 30 : 1277-1287
  • 6Brandt J, Drechsler & F.-J. Arendts. Mechanical performance of composites based on various three-dimensional woven-fibre. Composites Science and Technology, 1996, 56 :381 - 386
  • 7Naik N K, Shembekar P S. Elastic behavior of woven fabric composites: I-lamina analysis. Journal of Composite Materials, 1992,26 : 2197-2225
  • 8Kuo W S, Pon B J. Elastic moduli and damage evolution of three-axis woven fabric composites. Journal of Materials Science, 1997,32(20) : 5445-5455
  • 9Tan P, Tong L, Steven G P. Modeling approaches for 3 D orthogonal woven compos -ites. Journal of Reinforced Plastics and Composites, 1988, 17(6) : 545-577
  • 10Tan P, Tong L, Steven G P. Models for predicting thermomechanical properties of threedimensional orthogonal woven composites.Journal of Reinforced Plastics and Compos -ites, 1999, 18(2) : 151-185

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兵器材料科学与工程
2014年 第2期

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