Mechanical Properties and Failure Analysis of 3D-Woven Copper Wire/Glass Fiber Hybrid Composites

Three-dimensional woven fabrics with excellent structural integrity are a very promising structure for multifunctional materials hybridized with various yarns. To systematically investigate mechanical properties and failure analysis of 3D-woven hybrid composites, copper wire/glass fiber composites w...

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Bibliographic Details
Published in:AATCC journal of research 2020-09, Vol.7 (5), p.17-24
Main Authors: Xu, Fujun, Zheng, Liangang, Zhang, Kun, Aouraghe, Mohamed Amine, Saleemi, Sidra, Cao, Yanhong, Qiu, Yiping
Format: Article
Language:English
Subjects:
3D-WEAVING
Composites
Copper Wire
E-Textiles
Failure Analysis
Glass Fiber
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Summary:Three-dimensional woven fabrics with excellent structural integrity are a very promising structure for multifunctional materials hybridized with various yarns. To systematically investigate mechanical properties and failure analysis of 3D-woven hybrid composites, copper wire/glass fiber composites with two hybrid structures, single-face copper wire (SF-CW) and double-face copper wire (DF-CW), were fabricated and tested. The SF-CW hybrid composites showed excellent tensile strength (1214 MPa) and bending strength (964 MP), which was greater than that of the DF-CW hybrid composites. Additionally, the compression strength and impact resistance of both composites exhibited comparable properties with traditional materials. Furthermore, all failure cross sections showed superior structural integrity and anti-delaminate properties, demonstrating that 3D-woven composites can be a good candidate platform by hybridization with various multifunctional yarns.
ISSN:2330-5517
2472-3444
2330-5517
DOI:10.14504/ajr.7.5.3