平编织铜网嵌埋复合材料与e -玻璃纤维增强环氧树脂复合材料制备及力学性能比较的实验研究

Andalasian International Journal of Applied Science, Engineering and Technology Pub Date : 2021-08-17 DOI:10.25077/aijaset.v1i02.14

R.P.S. Chopra, Mukesh Kumar, N. Akhtar

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引用次数: 0

摘要

本文对环氧基玻璃纤维增强GFRP (Glass-Fiber Reinforced Plastic)复合材料进行了试验研究，发现其力学性能可以与其他混杂复合材料(玻璃钢复合材料中玻璃纤维层间平纹编织铜条网)进行比较。这两种类型的复合材料都是采用手工铺层技术制成的，即，将切碎的玻璃纤维片和环氧树脂一层一层地放置，在环氧树脂和玻璃纤维以20%的纤维负荷填充后，用数字秤测量，然后在这个夹层上施加压力。24小时后即可拆除，48小时后即可拆除。按照ASTM标准切割样品，然后对GFRP和混合复合材料进行测试，以确定其机械和物理性能。结果表明，当我们在GFRP层压板之间引入平纹编织铜条网格使其混合后，性能有所改善。

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Experimental Study on Fabrication and Comparison of Mechanical Properties of Plain Weave Copper Mesh Embedded Hybrid Composite with E-Glass Fiber Reinforced Epoxy GFRP Composite

This paper presents the experimental study on on GFRP (Glass-Fiber Reinforced Plastic) composite which is fiberglass reinforced with epoxy matrix and find its mechanical properties that can be compared with other hybrid composite which include plain weave copper strips mesh in between the layers of fiberglass in GFRP composite. Both type of composites are made using hand layup technique i.e., placing of chopped fiberglass sheet and then epoxy resin layer by layer, after filling of epoxy and fiberglass at 20% fiber loading which is measured by digital scale, then a pressure is also applied on this sandwich. After 24 hours it is ready to be demolded and after 48 hrs. samples was cuts as per ASTM standards then testing was done on both GFRP and Hybrid composites to find their Mechanical & Physical Properties. Results shows improvement as we introduce plain weave copper strips mesh in between the GFRP laminate to make it hybrid.

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Andalasian International Journal of Applied Science, Engineering and Technology

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