Woven Structures from Natural Fibres for Reinforcing Composites

A. Bernava, Māris Maniņš, G. Strazds
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引用次数: 1

Abstract

The increase of production of woven structures from natural fibres for reinforced composites can be noticed in different sectors of economy. This can be explained by limited sources of raw materials and different environmental issues, as well as European Union guidelines for car manufacture [4]. This research produced 2D textile structures of hemp yarn and polypropylene yarn and tested the impact of added glass fibre yarn on the mechanical properties of the woven structures and the composites produced from them. The woven structures were manufactured using hand looms or industrial looms (CТБ-175) using one layer technique. The mechanical testing of the reinforcements showed that the parameters of the looms had significant impact on the properties of the reinforcements. However, the desired improvement of strength by adding glass fibre to the fabric was not achieved. The one, two, three and four layer composites were produced in a hydraulic press using reinforcements woven from hemp yarn and polypropylene yarn. The mechanical testing of composites showed that the tensile strength of the composites and the tensile stress at maximum load depends on number of the reinforcement layers, but the tensile extension of the composites and the modulus of elasticity are not closely related to the number of reinforcement layers, but rather on elasticity of yarn used in weaving. Swelling of composites in water was detected.
增强复合材料用天然纤维编织结构
增强复合材料用天然纤维编织结构的产量在不同的经济部门都有所增加。这可以通过有限的原材料来源和不同的环境问题以及欧盟汽车制造指南来解释[4]。本研究制作了麻纱和聚丙烯纱的二维纺织结构,并测试了添加玻璃纤维纱对编织结构及其复合材料力学性能的影响。编织结构是使用手工织机或工业织机(CТБ-175)使用单层技术制造的。对增强剂的力学性能进行了测试,结果表明,织机参数对增强剂的性能有显著影响。然而,在织物中加入玻璃纤维并没有达到预期的强度提高。以麻纱和聚丙烯纱为增强材料,在液压机上制备了一层、二层、三层和四层复合材料。复合材料的力学性能测试表明,复合材料的抗拉强度和最大载荷下的拉应力与增强层数有关,但复合材料的拉伸伸长率和弹性模量与增强层数关系不大,而与织造所用纱线的弹性有关。检测了复合材料在水中的溶胀。
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