▎ 摘 要
NOVELTY - A high-performance architectural powder coating includes 10-40 pts. wt. epoxy resin, 2-10 pts. wt. diphenyl imidazoline, 10-25 pts. wt. nano-graphene, 5-13 pts. wt. zinc powder, 8-15 pts. wt. magnesium powder, 6-14 pts. wt. iron powder, 6-14 pts. wt. nanocarbon powder, 10-30 pts. wt. sepiolite powder, 2-8 pts. wt. fatty alcohol polyoxyethylene ether, 3-8 pts. wt. lithium laurate, 1-4 pts. wt. tetrabutylammonium bromide, 10-25 pts. wt. calcium carbonate, 8-20 pts. wt. calcium silicate, 6-12 pts. wt. aluminum nitride powder, and 5-17 pts. wt. nano-jade powder. USE - High-performance architectural powder coating. ADVANTAGE - The powder coating is formaldehyde-free, and has good hardness of greater than or equal to 2H, strong adhesion, good pollution resistance, excellent mold resistance, scrub resistance of greater than or equal to 10000 times, and higher number of indicators than the existing latex paint. DETAILED DESCRIPTION - A high-performance architectural powder coating comprises 10-40 pts. wt. epoxy resin, 2-10 pts. wt. diphenyl imidazoline, 10-25 pts. wt. nano-graphene, 5-13 pts. wt. zinc powder, 8-15 pts. wt. magnesium powder, 6-14 pts. wt. iron powder, 6-14 pts. wt. nanocarbon powder, 10-30 pts. wt. sepiolite powder, 2-8 pts. wt. fatty alcohol polyoxyethylene ether, 3-8 pts. wt. lithium laurate, 1-4 pts. wt. tetrabutylammonium bromide, 10-25 pts. wt. calcium carbonate, 8-20 pts. wt. calcium silicate, 6-12 pts. wt. aluminum nitride powder, 5-17 pts. wt. nano-jade powder, and 2-6 pts. wt. isohexylmercaptoacetate di-n-octyl tin. An INDEPENDENT CLAIM is included for preparation of powder coating comprising mixing the epoxy resin, diphenyl imidazoline, nano-graphene, zinc powder, magnesium powder, iron powder, nanocarbon powder, sepiolite powder, calcium carbonate, calcium silicate, aluminum nitride powder and nano-jade powder, high-speed, adding remaining raw materials, mixing, extruding, cooling, crushing, sieving, and grading.