石墨烯
材料科学
放电等离子烧结
复合材料
铜
微观结构
复合数
基质(化学分析)
冶金
纳米技术
作者
Wanli Qu,Jixiang Zhang,Shudong Zhang,Nian Li,Cui Liu,Xinling Yu,Yanping Song,Shuai Han,Liqing Chen,Min Xi,Longchang Xu,Shenyi Ding,Zhenyang Wang
标识
DOI:10.1016/j.coco.2022.101187
摘要
Incorporation of graphene into copper matrix composites is a powerful method to improve the mechanical property and wear resistance of copper. However, it remains as an unsolved challenge for graphene to be dispersed uniformly in the matrix due to its agglomeration tendency. Here, an innovative method is introduced to avoid the agglomeration of graphene in the composites. This method involves the pulse electrodeposition of copper into a 3D laser induced graphene network and the consolidation of matrix by spark plasma sintering . The continuous 3D structure of graphene is barely disrupted in this process, ensuring the uniformity of graphene in the copper matrix. As a result, the mechanical properties and wear resistance of the composites have been significantly improved with no obvious sacrifice of electrical and thermal conductivity . The mechanisms for the improvements are also discussed based on the microstructure analysis . • Copper matrix composite reinforced by 3D interconnected graphene were developed. • Graphene was uniformly dispersed into the copper matrix with intact structure. • The mechanical property and wear resistance of the copper matrix is greatly enhanced.
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