▎ 摘　　要

NOVELTY - Anti-static silicone rubber comprises 100-150 pts. wt. liquid silicone gel, 50-80 pts. wt. silicone gel, 10-12 pts. wt. conductive agent, 5-10 pts. wt. graphene powder, 5-10 pts. wt. conductive carbon black, 2-5 pts. wt. graphene fiber, 5-18 pts. wt. conductive powder, 20-50 pts. wt. thermally conductive insulating elastic rubber, 2-5 pts. wt. thermally-conducting insulating pouring sealant, 2-6 pts. wt. aluminum oxide thermally-conducting rubber and 1-4 pts. wt. boron nitride thermally-conducting rubber. USE - As anti-static silicone rubber. ADVANTAGE - The rubber removes static electricity in process of producing silicone rubber, prevents static electricity from remaining inside rubber during production process, ensures the stability of rubber during production process, exhibits excellent heat dissipation performance, avoids excessive heat of rubber, and reduces the performance of rubber production, which further ensures high stability of rubber during use. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for preparing anti-static silicone rubber, involving (a) cleaning and arranging liquid silicone gel, silicone gel, heat-conducting insulating elastic rubber, heat-conducting insulating pouring sealant, aluminum oxide heat-conducting rubber and boron nitride heat-conducting rubber, and removing impurities in the rubber, (b) heating and melting liquid silicone gel, silicone gel, thermally conductive insulating elastic rubber, thermally conductive insulating pouring sealant, aluminum oxide thermally conductive rubber and boron nitride thermally conductive rubber at 180-200degrees Celsius for 10-15 minutes, (c) uniformly stirring and mixing melted liquid silicone gel, silicone gel, thermally conductive insulating elastic rubber, thermally conductive insulating pouring sealant, aluminum oxide thermally conductive rubber and boron nitride thermally conductive rubber at a stirring speed of 10-30 turns/minute to obtain mixed rubber, (d) heating conductive agent inside mixed rubber, and continuously stirring for 10-15 minutes, (e) uniformly mixing graphene powder, conductive carbon black, graphene fiber and conductive powder at 100-120degrees Celsius, uniformly mixing to obtain conductive mixture, adding obtained conductive mixture to mixed rubber for mixing reaction, and uniformly mixing and stirring for 30-40 minutes, (f) performing anti-static processing on mixed rubber for 5-10 minutes, and (g) performing defoaming treatment on treated mixed rubber, extruding and molding mixed rubber.