Fancy glaze and method for manufacturing same

A manufacturing method and flower glaze technology, which are applied in the field of glazes for ceramics and their manufacture, can solve the problems of non-mixed firing of products, limited production scheduling, and small scope of application, so as to achieve good thermal stability, reduce the cost of glazes, and apply wide range of effects

Active Publication Date: 2008-05-21
清远市欧雅陶瓷有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In the prior art, ceramic products have become the object of customer choice due to their high density, small shrinkage deformation, good wear resistance, and good decorative effect, and have a broad market. In the glazing process, the requirements for the frit are different. The requirements for the glaze are high. The amount of glaze must have a certain thickness.
When traditional raw glaze is applied to products, thermal stability is poor, color difference is easy to occur, the product is easy to deform, and the scope of application is small; the glaze surface is rough, and its material selection requirements are strict, the product is easy to absorb dirt, and the cost is high

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0022] The process flow of the glaze manufacturing method is as follows: the raw materials enter the factory, and after inspection, 18-38% by weight of potassium feldspar, 10-23% by weight of calcite, 4-7% by weight of talc, 3-7 % by weight of quartz, 4-10% by weight of zirconium silicate, 2-5% by weight of zinc oxide, 5-10% by weight of alumina, 3-6% by weight of barium carbonate, 6-10 % by weight of black mud, stir evenly at room temperature to form a mixture, then add 0-0.3% by weight of trimer, 6-20% by weight of water, 0-10% by weight of ink, 0-10 % by weight of the printing paste, stir evenly at room temperature to form a stable colloidal dispersion system, at room temperature, after the ball milling process, check whether it meets the standard, if it meets the standard, go to the next process: iron removal and sieving, and finally form The glaze slurry is put into the warehouse for use. The weight percentage of the fineness of the glaze is 250 mesh sieve remainder: 100...

Embodiment 2

[0024] The process flow of the flower glaze manufacturing method is as follows: the raw materials enter the factory, and after inspection, 18% by weight of potassium feldspar, 10% by weight of calcite, 7% by weight of talc, 7% by weight of quartz, 10% by weight of Zirconium silicate in parts by weight, zinc oxide in 5% by weight, aluminum oxide in 10% by weight, barium carbonate in 6% by weight, and black mud in 10% by weight are stirred at room temperature to form a mixture. Add 0.3% by weight of trimer, 6% by weight of water, 5% by weight of printing oil, 5% by weight of printing paste, stir evenly at room temperature, and form a stable colloidal dispersion system. After the ball milling process, it is tested whether it meets the standard. If the standard is met, the next process is carried out: iron removal and sieving, and finally the glaze slurry is formed and put into the warehouse for use. The weight percentage of the fineness of the glaze is 250 mesh sieve residue: 100...

Embodiment 3

[0026] The process flow of the glaze manufacturing method is as follows: the raw materials enter the factory, and after inspection, 38% by weight of potassium feldspar, 14% by weight of calcite, 4% by weight of talc, 3% by weight of quartz, 4% by weight of Zirconium silicate in parts by weight, zinc oxide in 2% by weight, aluminum oxide in 5% by weight, barium carbonate in 3% by weight, and black mud in 6% by weight are stirred evenly at room temperature to form a mixture. Add 10% by weight of water, 5% by weight of printing oil, and 6% by weight of printing paste, stir evenly at room temperature to form a stable colloidal dispersion system, at room temperature, check whether it meets the standard after ball milling , if it reaches the standard, go to the next process: iron removal and sieving, and finally form the glaze slurry and put it into the warehouse for use. The weight percentage of the fineness of the glaze is 250 mesh sieve remainder: 100%, and the firing temperature...

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PUM

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Abstract

The invention discloses a fancy glaze and a preparation method thereof. The weight percentages of each component of the fancy glaze are 18 percent to 38 percent of potassium feldspar, 10 percent to 23 percent of calcite, 4 percent to 7 percent of talc, 3 percent to 7 percent of quartz, 4 percent to 10 percent of zirconium silicate, 2 percent to 5 percent of zinc oxide, 5 percent to 10 percent of alumina, 3 percent to 6 percent of barium carbonate, 6 percent to 10 percent of black mud, 0 percent to 0.3 percent of tripolyphosphate, 6 percent to 20 percent of water, 0 percent to 10 percent of squeegee oil and 0 percent to 10 percent of printing paste. The weight percentage of the glaze material fineness is that the 250 meshes sieve residue is 100 percent. The technical process of the method of manufacturing the fancy glaze is as follows: the raw material enters the factory for testing, proportioning, ball milling, detecting, removing iron, sieving and storing in a storehouse for using. The sintering temperature is 1195 DEG C to 1210 DEG C, and the sintering period is 50min to 65min. The application range of the invention is wide; the glaze surface is smooth; the sintering temperature range is wide; the chromatic aberration can not be produced easily; the finished product rate is high; the cost can be reduced by about 40 percent.

Description

technical field [0001] The invention relates to a ceramic glaze and a manufacturing method thereof, in particular to a flower glaze and a manufacturing method thereof. Background technique [0002] In the prior art, ceramic products have become the object of choice for customers because of their high density, small shrinkage and deformation, good wear resistance and good decorative effect, and have a broad market. In the glazing process, the requirements for frit are different, the requirements for glaze are high, the amount of glaze must have a certain thickness, the requirements for firing temperature are strict, products cannot be mixed, and there are certain restrictions on production scheduling. When the traditional raw glaze is applied to the product, the thermal stability is poor, the color difference is easy to occur, the product is easily deformed, and the application scope is small; the glaze surface is rough, and the material selection requirements are strict, the...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B41/86
Inventor 霍炳祥
Owner 清远市欧雅陶瓷有限公司
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