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聚乙烯凝胶丝在超拉伸过程中结构的变化 被引量:3

STRUCTURE DEVELOPMENT DURING HOT-DRAWING OF PE GEL FIBER
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摘要 用超高分子量聚乙烯(UHMWPE)制成的凝胶初生纤维在合适的条件下,进行高达192倍的拉伸。得到强度和模量分别为4.4 GPa和210 GPa的聚乙烯纤维。借助于广角X-射线衍射法(WAXD)、差示扫描量热法(DSC)等手段,对纤维在拉伸过程中的结晶度、取向度、晶胞参数、拉伸应力、残留溶剂含量及纤维强度、模量作了测试。据此,作者认为:UHMWPE纤维在热拉伸过程中,结构的发展和形成可以粗略地分为三个阶段:第一阶段,凝胶纤维中的溶剂被挤出,大分子发生取向;第二阶段,折叠链片晶开始被拉直,经过这个阶段,晶体密度上升约10%,熔点上升4~6℃;经第三个阶段后,晶体密度进一步上升10%,熔点再次上升3℃。 In this paper, ultra-high molecular weight polyethyiene (UHMWPE) as-spun gel fibers were drawn up to the ratio of 192 under suitable condition, thus final product with tenacity 4.4 GPa and modulus 210 GPa was obtained. By means of WAXD and DSC et al. crystallinity, degree of orientation, unit cell parameters, tensile force of drawing, content of solvent, tenacity and modulus of the fibers were measured. The authors suggest that: There are three stages in the development of fiber structure during hot-drawing process. The first stage is the removal of solvent from the gel fiber and the orientation of molecular chains. The second stage was the extension of folded lamellar crystals. The crystal density increased by 10% after the second stage and the melting point (T_m) increased by 4~6℃. The crystal density increased by further 10% and T 3℃ after the third stage.
作者 潘力军 胡祖明 刘兆峰 张安秋 吴宗铨
机构地区 中国纺织大学化学纤维研究所
出处 《中国纺织大学学报》 CSCD 1991年第4期53-60,共8页 Journal of China Textile University
关键词 聚乙烯纤维 半熔融纺丝 拉伸机理 polyethylene fiber, fiber morphology, crystal structure of high polymer and macromolecules draw mechanism, gel spinning, hot-drawing.
分类号 TQ342.61 [化学工程—化纤工业]
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参考文献2

  • 1J. Smook,J. Pennings. Influence of draw ratio on morphological and structural changes in hot-drawing of UHMW polyethylene fibres as revealed by DSC[J] 1984,Colloid & Polymer Science(9):712~722
  • 2B. Kalb,A. J. Pennings. Maximum strength and drawing mechanism of hot drawn high molecular weight polyethylene[J] 1980,Journal of Materials Science(10):2584~2590

同被引文献33

  • 1潘力军,刘兆峰,胡祖明,诸静,张安秋,吴宗铨.超高倍拉伸聚乙烯凝胶纤维熔融行为的研究[J].高分子材料科学与工程,1993,9(3):89-92. 被引量:12
  • 2陈自力,刘兆峰,诸静,胡祖明.聚乙烯冻胶丝萃取超拉伸的研究[J].中国纺织大学学报,1993,19(6):68-74. 被引量:7
  • 3于俊荣,胡祖明,刘兆峰.超拉伸UHMWPE纤维的超分子结构变化[J].高分子材料科学与工程,2005,21(4):260-263. 被引量:11
  • 4吴世臻,肖长发,安树林,贾广霞,张学峰.超高分子量聚乙烯纤维热行为的研究[J].高分子材料科学与工程,1995,11(3):108-111. 被引量:14
  • 5MAC B.Para-aramide fibers in Poland:import and special applications in the textile industry[J].Fibers & Textiles in Eastern Europe,2000,8(2):12-18.
  • 6CAESAR H M.Twaron:its technical properties and applications[J].Chemical Fibers International,2000,50 (4):161-164.
  • 7THKASHI N.Properties and application of aramid fibers[J].SEN'I GAKKAISHI,2000,56(8):11-17.
  • 8Chemical Fibers Association of Japan.Manual of Chemical Fiber in 2007[M].Tokyo:Chemical Fibers Association of Japan,2007:130.
  • 9VOLOKHINA A V.Effect of the molecular weight of fibre-forming polymers on the mechanical properties of polymer fibers[J].Fiber Chemistry,2002,34 (1):1-9.
  • 10DOBB M G,ROBSON R M.Structural characteristics of aramid fiber variants[J].Journal of Materials Science,1990,25(1):459-464.

引证文献3

二级引证文献14

中国纺织大学学报
1991年 第4期

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