▎ 摘 要
NOVELTY - Ceramic product containing graphene oxide anti-corrosion layer comprises rough blank, graphene oxide anti-corrosion layer and glaze, where rough blank comprises 60-80 pts. wt. kaolin, 20-30 pts. wt. black mica, 10-15 pts. wt. aluminiumoxide, 15-20 pts. wt. rare earth oxide, 8-10 pts. wt. sinteringauxiliary agent, where oxidation of graphite anti-corrosion layer comprises 10-20 pts. wt. graphene oxide, 30-50 pts. wt. anion powder, 30-50 pts. wt. bonding powder, 10-14 pts. wt. sintering auxiliary agent, glaze comprises 16-20 pts. wt. inorganic pigment, 50-70 pts. wt. base glaze. USE - Ceramic product containing graphene oxide anti-corrosion layer. ADVANTAGE - The ceramic product containing graphene oxide anti-corrosion layer has excellent acid, alkali corrosion resistance and performance of resisting thermal shock resistance. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method for preparing ceramic product containing graphene oxide anti-corrosion layer, which involves: (A) crushing kaolin and black mica to 300 meshes, adding alumina and rare earth oxide uniformly, uniformly mixing into ball mill to grinding to 300 meshes, adding sintering auxiliary agent after uniformly stirring, adding water to prepare slurry viscosity is 300-320 megapascal of blank, blank shaping after removing iron, smelting, refining, billet sintering for 3-4 hours at 850-1000 degrees C, heating up to 1200-1300 degrees C for 6-8 hours to obtain rough blank, oxidized graphene and negative ion powder, adhesive powder, sintering auxiliary agent mixing and crushing to 5-38 micrometer, adding anhydrous ethanol to process ultrasonic dispersion, after volatile dispersion in absolute ethyl alcohol to obtain dispersed powder, then dispersing powder by spray gun spraying pre-heated of rough blank surface to 200-300 degrees C to obtaining graphene oxide anti-corrosion layer, base glaze in each component in turn into ball mill to grinding to 300 meshes, then adding water; (B) mixing uniformly; (C) adding inorganic pigment mixing uniformly; (D) adjusting degree to 55-60 degrees C B to obtain glaze water, uniformly applying glaze on graphene oxide anti-corrosion layer; (E) firing for 40-50 minutes at temperature of 120-140 degrees C, then raising temperature to 400-500 degrees C; and (F) keeping temperature for 3-5 hours to obtain final product.