▎ 摘　　要

NOVELTY - The method for the manufacture of anti-deformation three-dimensional printer window glass involves (a) dissolving nano kaolin, a ruthenium complex (I) and graphene into N,N-dimethylformamide in the presence of UV light and ultrasonically stirring, (b) mixing polymethylmethacrylate, maleic anhydride, antimony trioxide, zirconium phosphate, glass fiber, rare-earth oxide, phenol sulfonamide and the modified solution, melting, cooling and granulating, and (c) pouring the glass material into die cavity, and finally cooling to obtain the window glass. USE - Method is useful for the manufacture of an anti-deformation three-dimensional printer window glass (claimed). ADVANTAGE - The anti-deformation three-dimensional printer window glass has excellent mechanical property and high temperature resistance. DETAILED DESCRIPTION - The method for the manufacture of anti-deformation three-dimensional printer window glass involves (a) dissolving nanokaolin, a ruthenium complex of formula (I) and graphene into N,N-dimethylformamide in the presence of UV light and ultrasonically stirring to form modified liquid, (b) mixing polymethylmethacrylate, maleic anhydride, antimony trioxide, zirconium phosphate, glass fiber, rare-earth oxide, phenol sulfonamide and the modified solution, melting, cooling and granulating to obtain a glass material, and (c) mixing the glass material at 180-185 degrees C for 3-4 hours, pouring the mixture into a die cavity at 45-65 degrees C for 40-50 minutes, and finally cooling to 25-35 degrees C to obtain the three-dimensional printer window glass. Mes=2,4,6-trimethylphenyl. An INDEPENDENT CLAIM is included for the anti-deformation three-dimensional printer window glass manufactured by the above method.