Effect of Geometric Arrangement on Mechanical Properties of 2D Woven Auxetic Fabrics

A. Shah, Muhmmad Shahid, Naveed Ahmad Siddiqui, Yasir Nawab, M. Iqbal
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引用次数: 2

Abstract

Textiles-fibres, yarns and fabrics are omnipresent in our daily lives, with unique mechanical properties that fit the design specifications for the tasks for which they are designed. The development of yarns and fabrics with negative Poisson’s ratio (NPR) is an area of current research interest due to their potential for use in high performance textiles (e.g., military, sports, etc.). The unique braiding technology of interlacement for preparation of braided helically wrapped yarns with NPR effect with later development of auxetic woven fabric made it possible to avoid the slippage of the wrapped component from the core. The applied geometrical configuration and NPR behaviour of the braided helical yarn structure with seven different angles comprising of monofilament elastomeric polyurethane (PU) core with two wrap materials that include multifilament ultra-high molecular weight polyethylene (UHMWPE) and polyethylene terephthalate (PET) fibres were investigated and analysed. The mechanically stable 2D woven textile auxetic fabrics (AF) with various weave patterns such as 2/2 matt and 3/1 twill were developed from the auxetic yarn with PU elastomer core having maximum NPR effect of −1.70 using lower wrapped angle of 9° to study and compare their mechanical responses. The auxetic yarn was used in weft direction and multifilament UHMWPE yarn in warp direction, using semi-automatic loom. Auxeticity of AF was analysed and its various mechanical properties such tensile strength, impact energy absorption, in-plane, and out-of-plane auxeticity, and puncture resistance were studied. Higher energy absorption of 84 Nm for matt fabric was seen compared to twill fabric having an energy of 65 Nm. The puncture resistance capability of matt fabric was better than twill fabric. While twill fabric exhibited better auxetic effect in both in-plane and out-of-plane mode compared to matt fabric. In short, both the twill and matt design AF’s showed unique characteristics which are beneficial in making various protective textiles such as protective helmets, bullet proof shields, cut resistance gloves, blast resistant curtains, and puncture tolerant elastomeric composites.
几何排列对二维机织增塑布力学性能的影响
纺织纤维、纱线和织物在我们的日常生活中无处不在,它们具有独特的机械性能,符合其设计任务的设计规范。具有负泊松比(NPR)的纱线和织物的开发是当前研究兴趣的一个领域,因为它们在高性能纺织品(例如,军事,体育等)中的应用潜力很大。随着后来无氧机织物的发展,采用独特的交织编织技术制备具有NPR效果的螺旋缠绕纱,避免了缠绕成分从芯部滑落的问题。研究了由单丝弹性体聚氨酯(PU)芯与多丝超高分子量聚乙烯(UHMWPE)和聚对苯二甲酸乙二醇酯(PET)两种包绕材料组成的7种不同角度螺旋编织纱结构的应用几何形态和NPR性能。以最大NPR效应为- 1.70的PU弹性体芯涤纶涤纶涤纶为原料,采用较低的包绕角为9°,研制了2/2亚光、3/1斜纹等多种织型的机械稳定的二维机织纺织助剂织物(AF)。在半自动织机上,纬向采用生长丝,经向采用多长丝UHMWPE纱。分析了AF的抗拉强度、冲击吸能、面内、面外抗拉性、抗穿刺性能等力学性能。与能量为65纳米的斜纹织物相比,亚光织物的能量吸收更高,为84纳米。亚光织物的抗穿刺性能优于斜纹织物。而斜纹织物在面内和面外都表现出比亚光织物更好的消长效果。简而言之,斜纹和亚光设计AF都显示出独特的特性,有利于制造各种保护性纺织品,如防护头盔,防弹盾牌,抗切割手套,防爆窗帘和耐穿刺弹性复合材料。
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