▎ 摘　　要

NOVELTY - Graphene thermal-conducting radiating film comprises upper copper foil layer provided on graphene layer (1), whose bottom end is provided with lower copper foil layer. A first thermal conductive silicone grease layer (2) is provided between graphene layer and bottom end of upper copper foil layer. A second thermal conductive silicone grease layer (3) provided between graphene layer and lower copper foil layer. A sealing anti-expansion structure (5) is provided between lower copper foil layer and upper copper foil layer. The bottom end of lower copper foil layer is provided with an auxiliary sticking structure. A high thermal conductivity and heat dissipation structure is provided on graphene layer. The high thermal conductivity and heat dissipation structure includes an upper groove. A lower groove is provided inside the bottom end of graphene layer. A bump is provided on the top of upper copper foil layer. The top of bump is provided with nano heat dissipation coating (4). USE - Used as the graphene thermal-conducting radiating film. ADVANTAGE - The radiating film: can tear the release cardboard from the high thermal conductivity silicone; and is easy to operate and very convenient to use. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for using method of graphene thermal-conducting radiating film. DESCRIPTION OF DRAWING(S) - The diagram shows a schematic representation of the graphene thermal-conducting radiating film. Graphene layer (1) First thermal conductive silicone grease layer (2) Second thermal conductive silicone grease layer (3) Nano heat dissipation coating (4) Sealing anti-expansion structure (5)