▎ 摘　　要

NOVELTY - Casting graphene/aluminum alloy composite material involves subjecting graphene metallization of forming a metallization on a graphene surface to obtain a metallized graphene. The titanium metal is compounded with the metalized graphene treatment to obtain the titanium-containing metal composite graphene block. The boric acid is coated on the surface of the metal composite graphene block to obtain the boric acid coated metal composite graphene block. The obtained boric acid cladded metal composite graphene block is pressed into an aluminum melt in a vacuum atmosphere melting furnace. USE - Method for casting graphene/aluminum alloy composite material (claimed). ADVANTAGE - The method enables to cast graphene/aluminum alloy composite material, which has improved composite material of heat resistance, strength and abrasive resistance comprehensive performance. DETAILED DESCRIPTION - Casting graphene/aluminum alloy composite material involves subjecting graphene metallization of forming a metallization on a graphene surface to obtain a metallized graphene. The titanium metal is compounded with the metalized graphene treatment to obtain the titanium-containing metal composite graphene block. The boric acid is coated on the surface of the metal composite graphene block to obtain the boric acid coated metal composite graphene block. The obtained boric acid cladded metal composite graphene block is pressed into an aluminum melt in a vacuum atmosphere melting furnace, stirred uniformly, and then heated at a high temperature for a period of time cast into a cast graphene/aluminum alloy composite material.