▎ 摘　　要

NOVELTY - The heating element has a first epoxy resin layer (2) that is provided with a wire (5) on one end surface. The end of the wire faces away from the first epoxy layer. The end of the first epoxy resin layer is equipped with a graphene layer. The end of the wire is in contact with the graphite layer (1). The other end of the graphite layer is connected to the second epoxy resin layer (7). The other end surface of the first epoxy resin layer is connected to the mica layer (6). The other end surface of the second epoxy resin layer is connected to one end surface of the reflective layer (3) and the other end surface of the reflective layer is connected to the foam metal layer (4). The thickness of the first epoxy resin layer is equal to the thickness of the second epoxy resin layer. The thickness of the graphite layer is greater than the diameter of the wire. USE - Carbon crystal heating element. ADVANTAGE - The carbon crystal heating element adopts a reflective layer and a foam metal, and the foam metal has good heat insulation, so that the thermal efficiency of the carbon crystal heating element is improved. The foam metal has a strong buffer protection ability, the foam metal has the ability to absorb energy and improves the durability of the carbon crystal heating element. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for producing carbon crystal heating element. DESCRIPTION OF DRAWING(S) - The drawing shows a schematic diagram of a carbon crystal heating element. Graphite layer (1) First epoxy resin layer (2) Reflective layer (3) Foam metal layer (4) Wire (5) Mica layer (6) Second epoxy resin layer (7)