▎ 摘　　要

NOVELTY - Heat sinks composite molding comprises grinding and pulverizing solid-state graphene with corresponding grinding equipment to obtain graphene powder and storing the graphene powder with corresponding storage equipment. The glue, auxiliary materials, and corresponding solvents used in the package are stirred, and the corresponding mixing equipment is used to carry out the mixing treatment of the multiple groups of materials, and then the corresponding mold is used to generate a synthetic graphene initial film. The external corresponding polyethylene (PE) protective film is extracted, placed the PE protective film in the corresponding solution for a period, and then used the external drying equipment to dry the PE protective film. The release film configured outside is extracted and used as an external tool to place the release film on the bottom of the graphene film. USE - Method for composite molding of heat sinks. ADVANTAGE - The radiating fin is simple and durable, saving material and improving efficiency. DETAILED DESCRIPTION - Heat sinks composite molding comprises grinding and pulverizing solid-state graphene with corresponding grinding equipment to obtain graphene powder and storing the graphene powder with corresponding storage equipment. The glue, auxiliary materials, and corresponding solvents used in the package are stirred, and the corresponding mixing equipment is used to carry out the mixing treatment of the multiple groups of materials, and then the corresponding mold is used to generate a synthetic graphene initial film. The external corresponding polyethylene (PE) protective film is extracted, placed the PE protective film in the corresponding solution for a period, and then used the external drying equipment to dry the PE protective film. The release film configured outside is extracted and used as an external tool to place the release film on the bottom of the graphene film. The pre-prepared substrate is placed in the coating machine, coated the processed graphene initial film on the protective film, and heated to 80℃ to form the graphene heat dissipation film.