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Method for photochromic low temperature antique glaze and preparing method thereof

A photochromic and low-temperature technology, applied in the field of ceramics, can solve the problem of less antique ceramics

Inactive Publication Date: 2017-01-25
佛山市高明区诚睿基科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] Along with the rapid development of economy and people's raising to living standard, pottery has become the pottery that places such as people's family, office, shopping malls are used for decoration, but the ceramic glaze surface of existing technology, though smoothness is high, color is rich, but There are few antique ceramics, especially multi-functional antique glazes, which are basically not involved, so the technology needs to be improved, and there is an urgent need to develop functional antique glazes, such as antibacterial, anti-static, air purification and other functions, to further expand its application range

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  • Method for photochromic low temperature antique glaze and preparing method thereof

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Embodiment 1

[0034] A photochromic low-temperature antique glaze and a preparation method thereof, the preparation method comprising the following steps:

[0035] Step A, preparation of photochromic low-temperature frit: 10% quartz, 10% feldspar, 14% borax, 12% carbonate, 35% boric acid, 3% spodumene, 4% fluoride salt, 1.5% kaolin Mix and grind evenly; then add 0.5% antibacterial compound and 10% photochromic compound, and grind evenly to obtain a mixture; spread the mixture into a refractory sagger, and perform high-temperature melting at 1250~1320°C to obtain a molten state slurry; the slurry is water-quenched and broken into granules to obtain a photochromic low-temperature frit; wherein, the feldspar is obtained by mixing potassium feldspar and albite feldspar in a weight ratio of 4:1; The carbonate is obtained by mixing potassium carbonate, sodium carbonate, barium carbonate, lithium carbonate and calcium carbonate in a weight ratio of 3:1:3:2:1; the fluoride salt is obtained by mixin...

Embodiment 2

[0048] A photochromic low-temperature antique glaze and a preparation method thereof, the preparation method comprising the following steps:

[0049] Step A, preparation of photochromic low-temperature frit: 15% quartz, 8% feldspar, 25% borax, 8% carbonate, 27% boric acid, 5% spodumene, 3% fluoride salt, 3% kaolin Mix and grind evenly; then add 1% antibacterial compound and 5% photochromic compound, and grind evenly to obtain a mixture; spread the mixture into a refractory sagger, and perform high-temperature melting at 1250~1320°C to obtain a molten state slurry; the slurry is water-quenched and broken into granules to obtain a photochromic low-temperature frit; wherein, the feldspar is obtained by mixing potassium feldspar and albite feldspar in a weight ratio of 4:1; The carbonate is obtained by mixing potassium carbonate, sodium carbonate, barium carbonate, lithium carbonate and calcium carbonate in a weight ratio of 3:1:3:2:1; the fluoride salt is obtained by mixing sodiu...

Embodiment 3

[0062] A photochromic low-temperature antique glaze and a preparation method thereof, the preparation method comprising the following steps:

[0063] Step A, preparation of photochromic low-temperature frit: 18% quartz, 12% feldspar, 21% borax, 5% carbonate, 27% boric acid, 8% spodumene, 1% fluoride salt, 5% kaolin Mix and grind evenly; then add 2% antibacterial compound and 1% photochromic compound, and grind evenly to obtain a mixture; spread the mixture into a refractory sagger, and perform high-temperature melting at 1250~1320°C to obtain a molten state slurry; the slurry is water-quenched and broken into granules to obtain a photochromic low-temperature frit; wherein, the feldspar is obtained by mixing potassium feldspar and albite feldspar in a weight ratio of 4:1; The carbonate is obtained by mixing potassium carbonate, sodium carbonate, barium carbonate, lithium carbonate and calcium carbonate in a weight ratio of 3:1:3:2:1; the fluoride salt is obtained by mixing sodi...

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Abstract

The invention discloses a photochromic low temperature antique glaze and a preparing method thereof. The preparing method comprises the steps of: A, preparing low temperature frit; B, preparing glaze, mixing low temperature frit, colorant, potassium feldspar, quartz, calcite, talc, calcium phosphate, photochromic compounds and antibacterial composite to obtain the mixing powder, putting sodium tripolyphosphate and carboxymethyl cellulose into powder and mixing the powder evenly, fine grinding, and then adding water so as to obtain the glaze; C, applying the glaze evenly on the body, and then putting the body into the reducing atmosphere furnace, cooling the natural glaze to room temperature after heat preservation, and the photochromic low temperature antique glaze is obtained. Compared with the prior antique glaze, the method has the advantages that the ingredients are scientific, the preparing method is reasonable.

Description

technical field [0001] The invention relates to the technical field of ceramics, in particular to a photochromic low-temperature antique glaze and a preparation method thereof. Background technique [0002] Bacteria and mold, as pathogenic bacteria, are very harmful to humans, animals and plants, affecting people's health and even life-threatening, and bringing significant economic losses. Therefore, the research on antibacterial materials and their products has attracted people's attention day by day, and the demand for antibacterial products will constitute a huge market. [0003] Photochromism refers to photochromism caused by different light sources and color changes caused by physical phenomena such as reflection, refraction and interference. Photochromic materials are divided into organic photochromic materials and inorganic photochromic materials, among which inorganic photochromic materials are less studied, mainly including transition metal oxides, metal halides an...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C8/06C04B41/86
CPCC03C8/06C04B41/5022C04B41/86
Inventor 黎淑娟
Owner 佛山市高明区诚睿基科技有限公司
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