▎ 摘　　要

NOVELTY - A high-efficiency antibacterial heat-conducting wear-resistant layer is prepared by blending 100 pts. wt. resin substrate, 0.05-0.15 pt. wt. graphene filler, 0.05-0.15 pt. wt. nano-titanium dioxide filler, 20-30 pts. wt. ceramic filler, 30-80 pts. wt. curing agent, 5-30 pts. wt. solvent, 0.5-2 pts. wt. antioxidant and 3-7 pts. wt. additive, hot pressing, and molding. The blending includes low-speed blending and high-speed blending. USE - The high-efficiency antibacterial heat-conducting wear-resistant layer is useful for floor. ADVANTAGE - The high-efficiency antibacterial heat-conducting wear-resistant layer: adopts nano-level anatase titanium dioxide and graphene, which are co-doped into the floor wear-resistant layer, so that nano-level titanium dioxide thin layer and graphene conductive network are formed on the floor surface; and utilizes photocatalytic sterilization performance of titanium dioxide and the high thermal conductivity of graphene materials. The wear-resistant titanium dioxide coated graphene works synergistically to provide long-term safety/hygiene to indoor home environment and improve the thermal conductivity of floor heating. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for preparation of the high-efficiency antibacterial heat-conducting wear-resistant layer.