▎ 摘 要
NOVELTY - Manufacturing moisture-proof and flame-retardant insulating coating material comprises (i) manufacturing solid powder base material including soaking pine wood sawdust with the mixed solution of 1 pts. wt. alum, 1 pts. wt. sodium chloride, 2 pts. wt. ferric oxide, and 10 pts. wt. water, and drying the pine wood sawdust to obtain air-dried sawdust, mixing 20-35 pts. wt. air-dried sawdust, 35-60 pts. wt. nylon resin, 20-30 pts. wt. glass fiber, 4-6 pts. wt. coupling agent, 2-7 pts. wt. hydrocarbyl siloxane emulsion, and 2 pts. wt. cerium trifluoride, coagulating, and pulverizing, and (ii) manufacturing substrate surface glue by mixing 35-60 pts. wt. polyether rubber, 14-20 pts. wt. rubber powder, 3-5 pts. wt. piperazine phosphate, 3-5 pts. wt. glycol, 3-5 pts. wt. diphosphate phosphazene and 3-5 pts. wt. silane coupling agent to obtain colloid, and adjusting with alkali. USE - Method for manufacturing moisture-proof and flame-retardant insulating coating material for electric appliance (claimed). ADVANTAGE - The method provides a product with better moisture-proof effect, better durability, more peeling, better electric appliance combination, good flame-retardant effect, waterproof bead condensation and moisture of the electric insulating coating material. DETAILED DESCRIPTION - Manufacturing moisture-proof and flame-retardant insulating coating material comprises (i) manufacturing solid powder base material including soaking pine wood sawdust with the mixed solution of 1 pts. wt. alum, 1 pts. wt. sodium chloride, 2 pts. wt. ferric oxide, and 10 pts. wt. water, and drying the pine wood sawdust to obtain air-dried sawdust, mixing 20-35 pts. wt. air-dried sawdust, 35-60 pts. wt. nylon resin, 20-30 pts. wt. glass fiber, 4-6 pts. wt. coupling agent, 2-7 pts. wt. hydrocarbyl siloxane emulsion, and 2 pts. wt. cerium trifluoride, coagulating, and pulverizing into powder, (ii) manufacturing substrate surface glue by mixing 35-60 pts. wt. polyether rubber, 14-20 pts. wt. rubber powder, 3-5 pts. wt. piperazine phosphate, 3-5 pts. wt. glycol, 3-5 pts. wt. diphosphate phosphazene and 3-5 pts. wt. silane coupling agent to obtain colloid, and adjusting with alkali to obtain glue solution with a pH of 8-9, (iii) manufacturing the first modulation coating by mixing 50-70 pts. wt. modified ricinoleic acid polyester polyol, 20-30 pts. wt. isocyanic acid curing agent, 5-20 pts. wt. sodium tripolyphosphate, 1-2 pts. wt. dibutyl hydroxytoluene, 0.5-1 pts. wt. graphene oxide, 1-2 pts. wt. methyl stearate, and 1-2 pts. wt. dimethyl dodecanedioate are mixed to obtain the first coating, and adjusting with alkali to make a coating with a pH of 8-9, (iv) manufacturing the second modulation coating by mixing 50-70 pts. wt. modified ricinoleic acid polyester polyol, 20-30 pts. wt. isocyanic acid curing agent, 5-20 pts. wt. alkylene glycol phenyl ether, 1-2 pts. wt. sodium dodecylbenzenesulfonate, 0.5-1 pts. wt. zirconia, 1-2 pts. wt. n-butyl acetate, 1-2 pts. wt. aluminum nitride, 1-2 pts. wt. cerium trifluoride and 1-2 pts. wt. sodium tripolyphosphate to obtain the second coating, and adjusting with acid to make a coating with a pH of 5-6, and (v) manufacturing outer coating by mixing 0-15 pts. wt. diacetone acrylamide, 5-8 pts. wt. acrylic acid, 25-30 pts. wt. methyl methacrylate, 0.5-0.8 pts. wt. hydrocarbyl siloxane emulsion, 0.8-1.2 pts. wt. tert-butyl hydroperoxide, 10-12 pts. wt. sodium persulfate, 1-3 pts. wt. cerium trifluoride, 2-3 pts. wt. molybdenum disulfide and 0.5-2 pts. wt. lead oxide to obtain the third coating, and using acid to adjust the pH to 5-6 coating. An INDEPENDENT CLAIM is also included for using method of moisture-proof and flame-retardant insulating coating material, solid powder base material, substrate surface glue, the first modulation coating, the second modulation coating, and outer coating, comprising (a) mixing 10-15 pts. wt. solid powder base material and 20-25 pts. wt. substrate surface glue to obtain the glue-coated base material, (b) mixing the first modulation coating with 10-15 pts. wt. second modulation coating with 30-35 pts. wt. to obtain the mixed prepared coating, (c) adding gluing base material into the mixed prepared coating, stirring and mixing to obtain the base modulation coating, (d) applying the base material into the surface of the electrical appliance to be painted to obtain an electrical appliance with a base prepared coating layer, and (e) spraying the outer layer coating onto the surface of the electrical appliance with the base material prepared coating layer and drying to obtain an electrical appliance with an electrical insulating coating layer.