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A powder-metallurgy-based strategy toward three-dimensional graphene-like network for reinforcing copper matrix composites

Xiang Zhang, Yixin Xu, Miaocao Wang, Enzuo Liu, Naiqin Zhao, Chunsheng Shi, Dong Lin, Fulong Zhu, Chunnian He

2020Nature Communications337 citationsDOIOpen Access PDF

Abstract

Three-dimensional graphene network is a promising structure for improving both the mechanical properties and functional capabilities of reinforced polymer and ceramic matrix composites. However, direct application in a metal matrix remains difficult due to the reason that wetting is usually unfavorable in the carbon/metal system. Here we report a powder-metallurgy based strategy to construct a three-dimensional continuous graphene network architecture in a copper matrix through thermal-stress-induced welding between graphene-like nanosheets grown on the surface of copper powders. The interpenetrating structural feature of the as-obtained composites not only promotes the interfacial shear stress to a high level and thus results in significantly enhanced load transfer strengthening and crack-bridging toughening simultaneously, but also constructs additional three-dimensional hyperchannels for electrical and thermal conductivity. Our approach offers a general way for manufacturing metal matrix composites with high overall performance.

Topics & Concepts

Materials scienceComposite materialGraphenePowder metallurgyCopperWettingCeramicMicrostructureNanotechnologyMetallurgyAluminum Alloys Composites PropertiesGraphene research and applicationsThermal properties of materials