Effects on the Microstructure Evolution and Properties of Graphene/Copper Composite during Rolling Process

Graphene/copper composites are promising in electronic and energy fields due to their superior conductivity, but microstructure control during thermal mechanical processing (TMP) remains a crucial issue for the manufacturing of high-performance graphene/copper composites. In this study, the hot deformation behavior of graphene/copper composites was investigated by isothermal compression tests at deformation temperatures of 700~850 °C and strain rates of 0.01~10 s−1, and a constitutive equation based on the Arrhenius model and hot processing map was established. Results demonstrate that the deformation mechanism of the graphene/copper composites mainly involves dynamic recrystallization (DRX), and such DRX-mediated deformation behavior can be accurately described by the established Arrhenius model. In addition, it was found that the strain rate has a stronger impact on the DRX grain size than the deformation temperature. The optimum deformation temperature and strain rate were determined to be 800 °C and 1 s−1, respectively, with which a uniform microstructure with fine grains can be obtained.

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Effects on the Microstructure Evolution and Properties of Graphene/Copper Composite during Rolling Process

Cited by 3 publications

References 39 publications

Enhanced mechanical properties of copper composites with high conductivity by intragranular graphene network

Enhanced mechanical properties of copper composites with high conductivity by intragranular graphene network

Progress of highly conductive Graphene-reinforced Copper matrix composites: A review

Hot Deformation Behavior and Microstructure Evolution of a Graphene/Copper Composite

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