▎ 摘　　要

This paper presents data on fabrication of "nickel-graphene-graphite" bulk composites using powder metallurgy methods combined with the high energy ball milling. The composites were then processed by high pressure torsion (HPT) at temperatures of 23 and 200 degrees C. This treatment gives rise to the formation of new "nanostructured nickel-graphene" composites. The phase composition of the new composite specimens was examined by X-ray diffraction. Raman spectroscopy proved graphite-to-graphene conversion under mechanical treatments. The microstructure of the new composite specimens was investigated by scanning electron and transmission electron microscopy methods. Composite specimens after HPT at temperature of 200 degrees C demonstrate the optimal combination of strength (sigma(02) = 923 MPa; sigma(b) = 992 MPa) and ductility (delta = 99%). Composite specimens with 2 wt.% graphene content after HPT at room temperature exhibits superior microhardness H-v = 6.45 GPa.