▎ 摘　　要

NOVELTY - A formulation of high-temperature-resistant, wear-resistant, heavy-duty corrosion-resistant JJY-1 graphene-modified nano-ceramic coating comprises 80-95 pts. wt. HFY-G special resin, 6-10 pts. wt. silicon dioxide, 5-7 pts. wt. zirconium oxide, 1-3 pts. wt. white carbon black, 5-7 pts. wt. mica powder, 2-3 pts. wt. barium sulfate, 1.5-2.5 pts. wt. zinc molybdate, 1-2 pts. wt. aluminum phosphate, 0.5-1 pt. wt. graphene, 0.3-0.8 pt. wt. anti-sagging agent, 0.3-0.8 pt. wt. dispersant, 0.1-0.4 pt. wt. defoamer, 2-10 pts. wt. curing agent, and 4-5 pts. wt. accelerator. USE - Formulation of high-temperature-resistant, wear-resistant, heavy-duty corrosion-resistant JJY-1 graphene-modified nano-ceramic coating. ADVANTAGE - The formulation of JJY-1 graphene-modified nano-ceramic coating has excellent high temperature resistance, wear resistance, heavy-duty corrosion resistance, oil resistance, acid and alkali resistance, thermal conductivity, impact resistance, antistatic property and self-cleaning property. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for preparation of the JJY-1 graphene-modified nano-ceramic coating, which involves: (1) adding HFY-G special resin to a reaction kettle, mechanically stirring for 8-15 minutes, then adding silicon dioxide, zirconium oxide, white carbon black, mica powder and barium sulfate to the reaction kettle, uniformly mixing, then mechanically stirring for 45-55 minutes, adding zinc molybdate and aluminum phosphate, stirring at high speed for 15-25 minutes, adding graphene, anti-sagging agent, dispersant and defoamer, and stirring at high speed for 10-20 minutes to obtain mixture (A); and (2) leaving still mixture (A) for 5-10 minutes, adding to a nano-grade grinder to grind several times to obtain mixture (B), adding mixture (B), curing agent and accelerator to the reaction kettle, and mechanically stirring for 8-15 minutes.