▎ 摘 要
NOVELTY - Graphene antistatic coating comprises component (A) comprising 20-30 wt.% epoxy resin, 15-30 wt.% graphene slurry, 25-40 wt.% zinc powder, 1-5 wt.% polyamide wax, 0.5-2 wt.% dispersant, 5-10 wt.% feldspar powder, 5-10 wt.% talc powder, 1-5 wt.% titanium dioxide, 0-1 wt.% additives, 15-20 wt.% solvent and component (B) comprising 32-45 wt.% polyaminoamide, 20-30 wt.% epoxy resin, 10-15 wt.% epoxy catalyst, and 25-30 wt.% solvent. USE - As graphene antistatic coating. ADVANTAGE - The graphene antistatic coating has excellent electrical resistance, chemical stability, corrosion resistance and heat dissipation properties. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for preparing the graphene antistatic coating, comprising (a) preparing raw materials, divided into component (A) comprising the Epoxy resin, graphene slurry, zinc powder, polyamide wax, dispersant, feldspar powder, talc powder, titanium dioxide, additives and solvents, and component (B) comprising polyaminoamide, epoxy resin, epoxy catalyst and solvent, (b) adding part of the solvent, polyamide wax, and dispersant to the epoxy resin in component (A), and stirring to form a uniform mixture, (c) adding talc, titanium dioxide, and feldspar powder to the mixture, stirring at high speed until the temperature reaches 60 degrees C, passing through a grinder to grind into a slurry, (d) putting the grinding slurry in a mixer and lower the temperature to room temperature, while stirring slowly, adding zinc powder and stirring evenly, (e) adding the graphene slurry, the remaining solvent and the additive to the step (d) slurry, and stirring uniformly at a slow speed to obtain the main agent, (f) adding the solvent and epoxy resin to the polyamide resin and stirring it evenly at a slow speed, letting it stand for 8 hours, and infrared detection obtains a qualified intermediate product polyaminoamide, (g) adding the intermediate product to the epoxy catalyst and stirring the remaining solvent to obtain a curing agent, and (h) pouring the finished product of component (A) and the finished product of component (B) into the reactor and stirring and mixing evenly.