▎ 摘　　要

NOVELTY - An antistatic and radiation-proof graphene modified fiber fabric comprises a polyester fiber layer including a graphene modified fiber fabric layer comprising 30-40 pts. wt. PVC resin, 5-10 pts. wt. azodicarbonamide, 5-10 pts. wt. Aloe vera gel, 3-6 pts. wt. nano-ceramic absorbent, 5-8 pts. wt. nano-conductive polymer, 3-8 pts. wt. nano-chitin, 6-12 pts. wt. germanate, 8-15 pts. wt. graphene oxide, 7-10 pts. wt. talc, and 3-5 pts. wt. plasticizer. USE - Antistatic and radiation-proof graphene modified fiber fabric. ADVANTAGE - The nano-ceramic absorbent and nano-conductive polymer can efficiently absorb electromagnetic waves. Antistatic and radiation-proof graphene modified fiber fabric has function of anti-radiation. The nano-ceramic absorbent and the nano-conductive polymer are lightweight, and have excellent high-temperature resistance and high strength which improves the overall performance of the fabric. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a preparation of antistatic and anti-radiation graphene modified fiber fabric, which involves (a) placing the polyvinyl chloride resin, azodicarbonamide, talc and plasticizer in a mixer for stirring to obtain material (I), (b) adding the nano-ceramic absorbent and nano-conductive polymer into a stirring device for stirring, and adding A.vera gel and nano-chitin during the stirring process to obtain material (II), (c) pulverizing graphene oxide and germanate, and mixing to obtain material (III), (d) mixing material (I) and material (II), placing in a twin-screw extruder to make a spinning melt, (e) stirring the spinning melt and material (III) evenly to obtain a modified spinning melt, (f) melt-spinning the modified spinning melt to obtain a spun fiber, (g) washing, bleaching, drying, and spanning the spun fiber into a fabric to obtain a graphene-modified fiber fabric layer, and (h) weaving graphene-modified fiber fabric layer and the polyester fiber layer with a large circular machine.