Study of the cohesion of carbon fiber yarns: in-plane shear behavior

被引:0
作者
A. Wendling-Hivet
M. Ramón Ferré
S. Allaoui
R. Nunez
S. Loison
G. Hivet
机构
[1] University of Orléans,PRISME Laboratory
[2] Herakles – Le Haillan,undefined
来源
International Journal of Material Forming | 2017年 / 10卷
关键词
Cohesion; Yarn behavior; In-plane shear; Roving yarn;
D O I
暂无
中图分类号
学科分类号
摘要
Cohesion of the fibers network is a key element in numerous manufacturing processes of textile structures and composite parts, because it significantly affects the implementability and the obtained result. However, cohesion remains at the moment an intuitive concept. This paper aims to deal with this concept, first proposing a first interpretation of yarn cohesion. Thanks to this definition, the in-plane shear test is proposed to characterize and measure cohesion. Among many difficulties, it appears to be an interesting way to analyze the cohesion of yarns extracted from 7 different batches and to establish the link between cohesion and implementation in manufacturing processes of Herakles which supports this study. In addition, the phenomenon responsible for the yarn cohesion are tackled and the influence of the yarn constitution is analyzed.
引用
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页码:671 / 683
页数:12
相关论文
共 30 条
  • [1] Colman AG(2014)Shear behaviour of architectural fabrics subjected to biaxial tensile loads. Compos A: Appl Sci Manuf 66 163-174
  • [2] Bridgens BN(2014)A study of the tensile behaviour of flax tows and their potential for composite processing. Mater. Des. 55 764-772
  • [3] Gosling PD(1998)Compaction of textile reinforcements for composites manufacturing I: review of experimental results. Polym Compos 19 198-216
  • [4] Jou G-T(1998)Packing Mechanics of Fiber Reinforcements. Polym Eng Sci 38 1337-1350
  • [5] Hsu X-Y(2014)Dry friction characterisation of carbon fibre tow and satin weave fabric for composite applications. Compos A: Appl Sci Manuf 56 127-135
  • [6] Moothoo J(2014)Effects of inter-tow angle and tow size on carbon fibre friction. Compos A: Appl Sci Manuf 65 115-124
  • [7] Allaoui S(2001)Experimental Analysis and Modeling of Biaxial Mechanical Behavior of Woven Composite Reinforcements. Exp Mech 41 260-269
  • [8] Ouagne P(2013)Meso modelling for composite preform shaping - Simulation of the loss of cohesion of the woven fibre network. Compos A: Appl Sci Manuf 54 135-144
  • [9] Soulat D(1962)Cohesion Phenomena in Cotton Rovings and Yarns. Part I: General Study. Text Res J 32 217-226
  • [10] Robitaille F(1964)Cohesion Phenomena in Cotton Rovings and Yarns. Part III: Influence of Fiber Characteristics on the Cohesion of Nontwisted Slivers. Text Res J 34 283-290
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