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Method for processing ceramic fluorescent glazed tile

A glazed tile and fluorescent technology, which is applied in the processing field of ceramic tiles, can solve the problems affecting the quality of the tile image, the effect of the product image, and the falling off of the fluorescent glaze, so as to achieve the effect of expanding market share, stable color and realistic image effect.

Inactive Publication Date: 2014-11-26
XIANGYANG GOLD CONTROL SPECIAL CERAMICS TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] The glazes of the fluorescent ceramic tiles currently on the market are mainly glaze slurry composed of barren raw materials. The suspension stability of this glaze slurry is extremely poor. There will be stratification and precipitation, which will directly cause uneven color and affect the effect of the product picture. In order to solve the precipitation phenomenon in the production process, the factory will adopt the method of frequent stirring, but stirring the glaze slurry is easy to generate gas, which makes the slurry belt There are bubbles, which directly affect the picture quality of tiles

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0023] Embodiment 1: In terms of producing fluorescent glaze slurry 10 Kg:

[0024] Glaze slurry 9.9 Kg, accounting for 99%, polyamide preparation 0.04Kg, accounting for 0.4%, methyl cellulose 0.06Kg, accounting for 0.6%, the preparation method is as follows: Step 1, according to the weight ratio of the raw material formula, mix the materials evenly to prepare fluorescent Glaze slurry; step 2, the fluorescent glaze slurry is ground into fluorescent glaze slurry with a ball mill for use; step 3, the fluorescent glaze slurry is printed on the plain brick of ceramics according to the pattern design by a ceramic special inkjet printer; step 4, the The above-mentioned semi-finished products are fired into finished products by roller kiln.

[0025] The grinding fineness in the preparation method step 2 is 325 mesh,

[0026] The firing temperature of the roller kiln in step 4 of the preparation method is 1160°C.

Embodiment 2

[0027] Embodiment 2: In terms of producing fluorescent glaze slurry 20 Kg:

[0028] Glaze slurry 19.86Kg, accounting for 99.3%, polyamide preparation 0.04Kg, accounting for 0.2%, methyl cellulose 0.1Kg, accounting for 0.5%, the preparation method is as follows: Step 1, according to the weight ratio of the raw material formula, take materials and mix evenly to prepare fluorescent Glaze slurry; step 2, the fluorescent glaze slurry is ground into fluorescent glaze slurry with a ball mill for use; step 3, the fluorescent glaze slurry is printed on the plain brick of ceramics according to the pattern design by a ceramic special inkjet printer; step 4, the The above-mentioned semi-finished products are fired into finished products by roller kiln.

[0029] The grinding fineness in the preparation method step 2 is 325 mesh,

[0030] The firing temperature of the roller kiln in step 4 of the preparation method is 1160°C.

Embodiment 3

[0031] Embodiment 3: In terms of producing fluorescent glaze slurry 50Kg:

[0032] Glaze slurry 49.7 Kg, accounting for 99.4%, polyamide preparation 0.15Kg, accounting for 0.3%, methyl cellulose 0.15Kg, accounting for 0.3%, the preparation method is as follows: Step 1, according to the weight ratio of the raw material formula, mix the materials evenly to prepare fluorescent Glaze slurry; step 2, the fluorescent glaze slurry is ground into fluorescent glaze slurry with a ball mill for use; step 3, the fluorescent glaze slurry is printed on the plain brick of ceramics according to the pattern design by a ceramic special inkjet printer; step 4, the The above-mentioned semi-finished products are fired into finished products by roller kiln.

[0033] The grinding fineness in the preparation method step 2 is 325 mesh,

[0034] The firing temperature of the roller kiln in step 4 of the preparation method is 1160°C.

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Abstract

The invention provides a method for processing a ceramic fluorescent glazed tile. The ceramic fluorescent glazed tile is prepared from the following raw materials in percentage by weight: 99-99.5 percent of glaze slip, 0.1-0.5 percent of polyamide preparation, and 0.3-0.6 percent of methylcellulose. The method comprises the following steps: 1, uniformly mixing the raw materials at a mass ratio to prepare a fluorescent glaze size; 2, grinding the fluorescent glaze size into fluorescent glaze slip by a ball mill; 3, printing the fluorescent glaze slip on a ceramic unglazed tile according to a pattern design by adopting a specific ceramic ink-jet printer; 4, firing the semi-finished product by adopting a roller kiln to form a finished product. By adopting the glazed tile processed by the method, the surface quality can be guaranteed, and the night fluorescent effect can be shown.

Description

technical field [0001] The invention relates to a processing method of ceramic tiles, in particular to a processing method of ceramic fluorescent glazed tiles. Background technique [0002] The glazes of the fluorescent ceramic tiles currently on the market are mainly glaze slurry composed of barren raw materials. The suspension stability of this glaze slurry is extremely poor. There will be stratification and precipitation, which will directly cause uneven color and affect the effect of the product picture. In order to solve the precipitation phenomenon in the production process, the factory will adopt the method of frequent stirring, but stirring the glaze slurry is easy to generate gas, which makes the slurry belt There are bubbles, which directly affect the picture quality of the tiles. Contents of the invention [0003] In order to effectively solve the above existing problems, the present invention provides a processing method for ceramic fluorescent glazed tile...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): C03C8/16C04B41/86
Inventor 宋佑鹤张代德
Owner XIANGYANG GOLD CONTROL SPECIAL CERAMICS TECH