碳纳米管-铜复合材料机械、电气和热性能的增强机制:综述

Yilin Jia, Kun Zhou, Wanting Sun, Min Ding, Yu Wang, Xiangqing Kong, Dongzhou Jia, Muhong Wu, Ying Fu
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引用次数: 0

摘要

碳纳米管(CNT)作为复合材料中的强力增强材料,在最近的多项研究中与铜结合后显示出卓越的增强效果。但在应用这些复合材料以及充分利用碳纳米管的增强功能以实现全面性能提升方面仍存在挑战。由于碳纳米管具有独特的结构和性能,因此可以灵活调节碳纳米管/铜复合材料的性能。要实现高性能、多样化 CNTs/Cu 复合材料的制造,必须深刻理解 CNTs 在复合材料中的增强机理,并考虑性能的关键影响因素。本文全面概述了 CNT 对 CNTs/Cu 复合材料机械、电气和热性能的增强机理。文章讨论了影响复合材料中 CNT 增强效果的因素,包括 CNT 的属性和分散、复合材料的结构以及 CNT 和铜之间的界面。此外,本研究还探讨了碳纳米管在铜基体中解决高强度和高导电性以及高强度和高延展性之间权衡的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Enhancement mechanisms of mechanical, electrical and thermal properties of carbon nanotube-copper composites: A review
Carbon nanotubes (CNTs), as potent reinforcements in composites, have demonstrated excellent strengthening effects when combined with copper in numerous recent studies. Challenges remain in the application of these composites and in fully leveraging the reinforcing capabilities of CNTs to achieve comprehensive performance enhancement. The performance of CNTs/Cu composites can be flexibly regulated owing to the unique structure and properties of CNTs. To achieve the fabrication of high-performance and diverse CNTs/Cu composites, a profound understanding of the reinforcement mechanisms of CNTs in the composites is essential, along with the consideration of key influencing factors on performance. This article provides a comprehensive overview of the reinforcement mechanisms of CNTs on the mechanical, electrical, and thermal properties of CNTs/Cu composites. Factors influencing the effectiveness of CNT reinforcement in composites are discussed, including the attributes and dispersion of CNTs, the architectures of composites, and the interface between CNTs and Cu. Furthermore, this study explores the role of CNTs in addressing the trade-off between high strength and high conductivity as well as between high strength and high ductility in the copper matrix.
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