A novel 3D woven carbon fiber composite with super interlayer performance hybridized by CNT tape and copper wire simultaneously

IF 1.9 4区材料科学 Q3 Materials Science Science and Engineering of Composite Materials Pub Date : 2023-01-01 DOI:10.1515/secm-2022-0219

Yu Zhu, Zhe Che, Youpei Du, P. Hou, Lijun Zhang, Junpeng Wang, Tao Zhang, Zhengwei Dai, Yi-Koan Hong, W. Han

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Abstract

Abstract In this work, a novel binary hybrid woven carbon nanotube (CNT) tape/copper wire carbon fiber reinforced epoxy resin composite is prepared. The mode I interlaminar fracture toughness (G IC) is employed to critically evaluate the delamination performance. A comparison of the G IC value with that of the carbon fiber reinforced composite confirms that incorporating CNT tapes and copper wires into the composite increases the value by 263%. In the transverse and through-thickness direction, the conductivity of the laminate increases to 458 and 193 S/m, which is increased by 196 and 675%, respectively. The thermal conductivity along the thickness direction is increased to 2.27 W/m K, an increase of 134%. The volume fraction of CNT tapes and copper wire are as low as approximately 0.87 and 0.47 vol%, respectively. 3D woven composites have potential applications in high-performance structures and lightning striking protection such as aircraft, ships, and engines, which benefits by the innovative through-thickness implantation of composites using CNT tape and copper wire.

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CNT带与铜线同时杂化的具有超层间性能的新型三维编织碳纤维复合材料

摘要本工作制备了一种新型的二元杂化编织碳纳米管（CNT）带/铜线碳纤维增强环氧树脂复合材料。采用I型层间断裂韧性（GIC）对分层性能进行了严格评价。G IC值与碳纤维增强复合材料的G IC值的比较证实，将CNT带和铜线结合到复合材料中使该值增加了263%。在横向和厚度方向上，层压板的导电率分别增加到458和193 S/m，分别增加了196和675%。沿厚度方向的热导率增加到2.27 W/m K、增长134%。CNT带和铜线的体积分数分别低至约0.87和0.47体积%。3D编织复合材料在飞机、船舶和发动机等高性能结构和雷击保护方面具有潜在应用，这得益于使用CNT带和铜线的创新全厚度植入复合材料。

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来源期刊

Science and Engineering of Composite Materials 工程技术-材料科学：复合

CiteScore

3.10

自引率

5.30%

发文量

审稿时长

4 months

期刊介绍： Science and Engineering of Composite Materials is a quarterly publication which provides a forum for discussion of all aspects related to the structure and performance under simulated and actual service conditions of composites. The publication covers a variety of subjects, such as macro and micro and nano structure of materials, their mechanics and nanomechanics, the interphase, physical and chemical aging, fatigue, environmental interactions, and process modeling. The interdisciplinary character of the subject as well as the possible development and use of composites for novel and specific applications receives special attention.