▎ 摘 要
NOVELTY - Antistatic and anti-radiation antimony-doped tin dioxide (ATO) nano-powder material comprises 100-110 pts. wt. ATO powder, 10-16 pts. wt. radiationproof component, 12-18 pts. wt. antistatic component, 14- 20 pts. wt. anti-oxygen anti-corrosion component, 3-6 pts. wt. ultraviolet absorbent, 3-6 pts. wt. wear-resistant resin fiber, and 4-8 pts. wt. wear-resistant resin fiber, where the radiationproof component comprising methyl methacrylate, dibenzoyl peroxide, dioctyl phthalate, nbutyl alcohol and lead methacrylate, the antistatic component comprising polydimethylsiloxane, epoxidized polyamide resin, polyvinyl alcohol and polyethylene imine, the antioxidant anti-corrosion component comprising xylene, butyl acetate, titanium pigment, polypyrrole, benzene sulfonic acid sodium and graphene. USE - Used as antistatic and anti-radiation antimony-doped tin dioxide nano-powder material. ADVANTAGE - The material: has high temperature resistance, corrosion resistance, good dispersibility; uses improves ATO nano-powder, which increases antistatic, radiation-proof and anti-oxidation and anticorrosion performance. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is also included for preparing antistatic and anti-radiation antimony tin oxide nano-powder material comprising adding ATO powder, radiationproof component, antistatic component, anti-oxygen anti-corrosion component, ultraviolet absorbent, wear-resistant resin fiber, and wear-resistant resin fiber in to a reactor, completely mixing, slowly raising the temperature of the reactor to 85-95 degrees C, mixing for 2-3 hours, curing, and grinding the obtained curing material.