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Abstract A novel architecture of graphene oxide wrapped copper spheres (Cu/GO) is proposed for fabricating high wear-resistant Cu-based composites. Tribological results indicate that GO shell layers present an exceptional strengthening… Click to show full abstract
Abstract A novel architecture of graphene oxide wrapped copper spheres (Cu/GO) is proposed for fabricating high wear-resistant Cu-based composites. Tribological results indicate that GO shell layers present an exceptional strengthening efficiency surpassing conventional nanoparticle, fiber and nanosheet reinforcements for Cu-based materials reported to date. The friction torque of the composites shows a load-insensitive behavior stabilized at 0.26–0.41 Nm. Such good tribological performance is ascribed to integrated effects including strong metal/GO interfacial coupling, uniform distributed GO, and the GO-assisted tribofilm formed on ridges and asperities of wear tracks. The fabrication strategy is convenient, low cost, easily scalable, and can be expanded to the preparation of other metal/GO materials.
Journal Title: Composites Part B: Engineering
Year Published: 2019
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