混杂天然纤维增强聚合物复合材料力学性能研究

Shubhender Singh Yadav, Pankaj Kumar Gupta, Bachchu Lal Gupta
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摘要

由于纤维的环保性质和废物的再利用,天然纤维在复合材料中的使用日益增加。天然纤维按其来源可分为植物纤维、矿物纤维和动物纤维。本文以环氧树脂为基体,以羊毛纤维为增强剂,亚麻纤维为增强剂,采用手工叠层法制备了复合材料。研究了亚麻纤维与羊毛纤维杂交对天然纤维增强聚合物复合材料力学性能的影响。将这些纤维按固定纤维含量5%[(100%亚麻纤维)、(40%羊毛/60%亚麻纤维)、(50%亚麻/50%羊毛纤维)、(60%羊毛纤维/40%亚麻)、(100%羊毛纤维)]与环氧树脂按不同百分比混纺,分别取样为F5、WF23、WF2.5、WF32和W5。通过实验研究了拉伸强度、弯曲强度和冲击强度。所有混杂复合材料的力学性能都优于非混杂羊毛纤维复合材料。羊毛纤维的机械强度较差,但亚麻纤维的强度较高。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Investigation on Mechanical Properties of Hybrid Natural Fiber Reinforced Polymer Composite
The use of natural fibers in composite is increasing day by due to eco-friendly nature of the fibres and reuse of waste. Natural fibers can be classified according to their source of origin such as plant fiber, mineral fiber, and animal fiber. In the present article, epoxy was taken as the matrix and wool fiber for reinforcement with flax flax fiber for fabricating the composite using the hand layup technique. The impact of the hybridization of flax and wool fibers on the mechanical properties of natural fiber reinforced polymer composite was investigated. These fibers were blended in varying percentages with fixed fiber content of 5% [(100% flax fiber), (40% wool/60% flax fiber), (50% flax/50% wool fiber), (60% wool fiber/40% flax), (100% wool fiber)] with epoxy resin and sampled as F5, WF23, WF2.5, WF32, and W5 respectively. Tensile strength, flexural strength, and impact strength were investigated through experimentation. All hybrid composites outperformed non-hybrid wool fiber composites in terms of mechanical properties. The wool fiber is poor in mechanical strength which was compensated by high strength of flax fiber.
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