Ceramic glaze applicable to robot glaze spraying process and preparation method of ceramic glaze applicable to robot glaze spraying process

A technology of ceramic glaze and robot, which is applied in the field of ceramics, can solve the problems of harming health, the quality of artificial spray glaze is stable and new, and the labor intensity is high, etc., and achieves the effect of high stability

Inactive Publication Date: 2018-10-02
GUANGDONG SITONG GROUP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

This new type of glass used on machines can be applied by pump or other methods like water jetting without losing its effectiveness over time due to instability caused by factors such as temperature changes during use.

Problems solved by technology

This patented technical problem addressed in this patents relates to improving the efficiency at producing good looking greenware with low environmental impacts while also reducing costs associated with manually applying glue onto them during manufacturing processes.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0018] The following formula is adopted in the present embodiment: 45 parts of kaolin, 35 parts of clay, 6 parts of white lead ore, 3 parts of borax, 0.6 part of diyttrium trioxide, 5 parts of zirconium silicate, 4 parts of perovskite, 17 parts of quartz stone, 15 parts of field soil, 0.7 parts of galena, 8 parts of pyrite and 1.5 parts of lapis lazuli (1418 kg in total); the main elements in the ceramic glaze are as follows: SiO 2 50%, Al 2 o 3 23%, CaO11%, MgO1%, K 2 O 0.8%, Na 2 O1.7%, PbO0.4%, B 2 o 3 0.9%, ZrO 2 2.2%, Y 2 o 3 0.4%, SrCO 3 0.3%, other substances accounted for 8.3%.

[0019] (1) Dissolve yttrium trioxide, zirconium silicate, perovskite, galena and pyrite in nitric acid solution (50% by mass), then add water to dilute 5 times to obtain a mixture solution, and set aside;

[0020] (2) Add 183kg of surfactant APAM (polyacrylamide) to the mixed solution obtained in step (1), stir for 1 hour, and set aside;

[0021] (3) Put the rest of the material in...

Embodiment 2

[0023] 40 parts of kaolin, 40 parts of clay, 5 parts of white lead ore, 2 parts of borax, 0.7 parts of diyttrium trioxide, 6 parts of zirconium silicate, 3 parts of perovskite, 15 parts of quartz stone, 14 parts of field soil, 0.5 parts of galena parts, 7 parts of pyrite and 2 parts of lapis lazuli (1362kg in total); the main element content in the ceramic glaze is as follows: SiO 2 45%, Al 2 o 3 20%, CaO12%, MgO0.8%, K 2 O 0.9%, Na 2 O 2%, PbO 0.2%, B 2 o 3 0.8%, ZrO 2 2.3%, Y 2 o 3 0.5%, SrCO 3 0.4%, other substances accounted for 15.1%.

[0024] (1) Dissolve yttrium trioxide, zirconium silicate, perovskite, galena and pyrite in nitric acid solution (50% by mass), then add water to dilute 5 times to obtain a mixture solution, and set aside;

[0025] (2) Add 172kg of surfactant APAM (polyacrylamide) to the mixed solution obtained in step (1), stir for 2 hours, and set aside;

[0026] (3) Put the rest of the material in a ball mill, add the solution obtained in ste...

Embodiment 3

[0028] 50 parts of kaolin, 30 parts of clay, 7 parts of white lead ore, 4 parts of borax, 0.5 parts of diyttrium trioxide, 4 parts of zirconium silicate, 6 parts of perovskite, 20 parts of quartz stone, 17 parts of field soil, 0.1 parts of galena 1 part, 9 parts of pyrite and 1 part of lapis lazuli (1486kg in total); the main element content in the ceramic glaze is as follows: SiO 2 55%, Al 2 o 3 25%, CaO10%, MgO1.2%, K 2 O 0.6%, Na 2 O 1.5%, PbO 0.5%, B 2 o 3 1%, ZrO 2 1.9%, Y 2 o 3 0.3%, SrCO 3 0.2%, other substances accounted for 2.8%.

[0029] (1) Dissolve yttrium trioxide, zirconium silicate, perovskite, galena and pyrite in nitric acid solution (50% by mass), then add water to dilute it 5 times to obtain a mixture solution for later use;

[0030] (2) Add 196kg of surfactant APAM (polyacrylamide) to the mixed solution obtained in step (1), stir for 2 hours, and set aside;

[0031] (3) Put the rest of the material in a ball mill, add the solution obtained in...

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PUM

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Abstract

The invention discloses ceramic glaze applicable to a robot glaze spraying process and a preparation method of the ceramic glaze applicable to the robot glaze spraying process. The glaze is prepared from 40-50 parts of kaolin, 30-40 parts of clay, 5-7 parts of cerusite, 2-4 parts of borax, 0.5-0.7 part of yttrium oxide, 4-6 parts of zirconium silicate, 3-6 parts of perovskite, 15-20 parts of quartz stone, 14-17 parts of field soil, 0.5-1 part of galena, 7-9 parts of pyrite and 1-2 parts of celestite. The preparation method includes: dissolving yttrium oxide, zirconium silicate, perovskite, galena and pyrite into acid, adding water to dilute, and keeping for standby application; adding surfactants, and stirring to keep for standby application; adding residual materials into a ball mill, adding solution, and performing ball milling to obtain 150-250-mesh ceramic glaze applicable to the robot glaze spraying process. The glaze is applicable to robot spraying and high in stability. The preparation method is suitable for large-scale industrial application.

Description

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Claims

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Application Information

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Owner GUANGDONG SITONG GROUP
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