▎ 摘　　要

TiC-Graphene/Cu hybrid nanocomposites were fabricated from a mixture of Cu, Ti and Graphite (C) powders in three different TiC percentages (20, 40, 60 vol%) by two-step ball milling for (8 + 8) h and in-situ reactive sintering. The microstructure of the synthesized composites was characterized using x-ray diffraction (XRD), scanning/transmission electron microscopy (SEM/TEM), and mechanical properties were evaluated by micro hardness and wear tests. Microstructural studies revealed that the fabricated composites were composed of a copper matrix together with the homogeneous distribution of the TiC nanoparticles and graphene layers (as unreacted carbon) with minimal porosities. The TiC addition led to a reduction in the density of sintered composites. With the increasing of reinforcement's volume fraction, microhardness of the nanocomposites increased. Cu-40 vol% TiC nanocomposite exhibited the lowest coefficient of friction of about 0.17 and the highest wear resistance against WC counterface.