▎ 摘　　要

NOVELTY - Synthesizing glaze water by using medical stone and graphene light wave catalysis comprises e.g. taking medical stone, graphene oxide, copper oxide, potassium nitrate, and quartz, and removing the impurities from the above materials, placing quartz into the kiln for calcination, finely grinding, then mixing uniformly with copper oxide and potassium nitrate powder, and then placing into the kiln for calcination, and performing calcination by twice, researching to fine, and filtering, diluting the powder into a glaze slurry, and then placing in a suitable container, finely grinding the medical stone, placing in a suitable container, and adding water to dilute, placing graphene oxide powder in a suitable container, adding a polymer dispersant, mixing and allowing to stand, providing a container containing the medical stone dispersion and the graphene oxide dispersion and placing into the ultrasonic oscillator to oscillate. USE - The method is useful forsynthesizing glaze water by using medical stone and graphene light wave catalysis. ADVANTAGE - The method reduces graphene oxide to graphene, so that graphene is gradually combined with medical stone in the process, and improves the final quality of glaze water. DETAILED DESCRIPTION - Synthesizing glaze water by using medical stone and graphene light wave catalysis comprises (i) taking 44% medical stone, 3% graphene oxide, 6.06% copper oxide, 23.77% potassium nitrate, and 23.17% quartz, and removing the impurities from the above materials; (ii) placing quartz into the kiln for calcination, finely grinding, then mixing uniformly with copper oxide and potassium nitrate powder, and then placing into the kiln for calcination, and performing calcination by twice, researching to fine, and filtering; (iii) diluting the powder in the step (ii) into a glaze slurry, and then placing in a suitable container; (iv) finely grinding the medical stone, placing in a suitable container, and adding water to dilute; (v) placing graphene oxide powder in a suitable container, adding a polymer dispersant, mixing and allowing to stand; (vi) providing a container containing the medical stone dispersion and the graphene oxide dispersion and placing into the ultrasonic oscillator to oscillate; (vii) gradually mixing the medical stone dispersion and graphene oxide dispersion; (viii) completely irradiating the mixture of step (vii) with far infrared rays for 24 hours to reduce graphene oxide to graphene and fully combine with medical stone; (ix) gradually mixing and stirring the glaze slurry and the mixture, and adjusting the water content in the process to prepare glaze water; (x) using the expansion coefficient tester to measure the expansion coefficient of the glaze water; (xi) adjusting the expansion coefficient of the glaze water according to the expansion coefficient of the blank to avoid the expansion coefficient of the glaze water is smaller than the expansion coefficient of the green body, resulting in cooling glaze layer i.e. is peeled off, or the expansion coefficient of the glaze water is greater than the expansion coefficient of the green body, where the glaze layer is cracked during cooling; (xii) testing the pH of the glaze slurry and adjusting; and (xiii) allowing to stand the glaze water for a period of time, and then using it.