▎ 摘　　要

NOVELTY - Graphene conductive fabric comprises graphene conductive film, adhesive layer and textile fabric. The graphene conductive fabric is composed of graphene conductive film, adhesive layer, and textile fabric in order from outside to inside. The graphene conductive film and the textile fabric are rolled and bonded through an adhesive layer. The manufacturing steps of the graphene conductive film fabric are (a) paving a polyurethane film and rolling coating graphene conductive material on the polyurethane film to form a graphene coating with uniform thickness; (b) placing the polyurethane film coated with the graphene coating on the roll; (c) taking out after aging to form a two-in-one graphene conductive film; (d) paving the textile fabric, roll-coating adhesive layer on the textile fabric, and pressing and bonding the graphene conductive film on textile fabric; (e) placing the fabric in a constant temperature environment for 24 hours of curing, and taking out fabric. USE - The fabric is useful for garment (claimed). ADVANTAGE - The fabric has a strong film feeling, a smooth membrane surface, good moisture permeability and good heat preservation effect, and can solve the problem of static electricity, can also play a role in lighting, bringing people more novelty and fun, and increases the added value of the product. DETAILED DESCRIPTION - Graphene conductive fabric comprises graphene conductive film, adhesive layer and textile fabric. The graphene conductive fabric is composed of graphene conductive film, adhesive layer, and textile fabric in order from outside to inside. The graphene conductive film and the textile fabric are rolled and bonded through an adhesive layer. The manufacturing steps of the graphene conductive film fabric are (a) paving a polyurethane film, and rolling coating graphene conductive material on the polyurethane film to form a graphene coating with uniform thickness; (b) placing the polyurethane film coated with the graphene coating on the roll in a constant temperature environment for 24 hours of curing; (c) taking out after aging to form a two-in-one graphene conductive film; (d) paving the textile fabric, roll-coating the adhesive layer on the textile fabric, and uniformly pressing and bonding the graphene conductive film on the textile fabric to form a three-in-one graphene conductive fabric; (e) placing the fabric in a constant temperature environment for 24 hours of curing, and taking out the fabric, where the specifications of the graphene conductive material are an average thickness of 1-3 nm, a diameter of 3-5 mu m, carbon content of 99.0 wt.%, sulfur content of 0.5 wt.%, oxygen content of 0.5 wt.%, water content of 1 wt.%, metal ion content of 100 ppm, conductivity of 1000 s/cm, thermal conductivity of 3000 w/mk, specific surface area of 500 m2/g, and the bulk density of 0.025 g/cm3. An INDEPENDENT CLAIM is also included for a garment made of graphene conductive fabric, comprising all or part of the fabric of the garment made of the graphene conductive fabric adopting the graphene conductive fabric.