Highlight glaze for ancient building porcelain as well as preparation method and application of highlight glaze

A technology of ancient architectural porcelain and glass beads, applied in the field of high-gloss glaze for ancient architectural porcelain and its preparation, can solve the problems of high firing temperature, high cost, damage, etc., achieve sufficient interface area, avoid enamel defects, and facilitate stress The effect of passing

Pending Publication Date: 2022-03-18
德化县万宝古建陶瓷有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] At present, the existing ancient building porcelain is made by firing at high temperature, and due to the raw material composition of the ancient building porcelain itself, the existing architectural porcelain has many shortcomings, such as complicated preparation process and high firing temperature, which leads to waste of energy There are many, and the quality of fired porcelain products is not ideal, there are problems of low gloss, low strength or poor toughness of ceramic products, it is difficult to achieve the characteristics of high whiteness and high strength, so a lot of damage occurs during the construction process , not only lead to high cost of each link, but also cause waste of energy

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0027] A high-gloss glaze for ancient architectural porcelain, comprising the following components in parts by weight: 30 parts of potassium feldspar, 15 parts of hollow nanoparticles, 10 parts of modified glass microspheres, 20 parts of quartz, 6 parts of niobium oxide, and 8 parts of magnesium oxide , 12 parts of sodium hydroxymethyl cellulose, 8 parts of barium chromate, 20 parts of kaolin and 60 parts of water.

[0028] A preparation method for high-gloss glaze for ancient building porcelain, comprising the following steps:

[0029] S1: Stir and mix the above-mentioned potassium feldspar, modified glass beads, quartz, niobium oxide, magnesium oxide, barium chromate, kaolin and water, after mixing evenly, ball mill into a glaze slurry, pass through a 400-mesh sieve, and set aside;

[0030] S2: Stir and mix sodium hydroxymethyl cellulose and hollow nanoparticles, after mixing evenly, set aside;

[0031] S3: Mix the glaze slurry obtained in step S1 and the mixture obtained i...

Embodiment 2

[0039] A high-gloss glaze for ancient architectural porcelain, comprising the following components in parts by weight: 20 parts of potassium feldspar, 10 parts of hollow nanoparticles, 8 parts of modified glass microspheres, 15 parts of quartz, 3 parts of niobium oxide, and 6 parts of magnesium oxide , 10 parts of sodium hydroxymethyl cellulose, 5 parts of barium chromate, 18 parts of kaolin and 50 parts of water.

[0040] A preparation method for high-gloss glaze for ancient building porcelain, comprising the following steps:

[0041] S1: Stir and mix the above-mentioned potassium feldspar, modified glass beads, quartz, niobium oxide, magnesium oxide, barium chromate, kaolin and water, after mixing evenly, ball mill into a glaze slurry, pass through a 400-mesh sieve, and set aside;

[0042] S2: Stir and mix sodium hydroxymethyl cellulose and hollow nanoparticles, after mixing evenly, set aside;

[0043] S3: Mix the glaze slurry obtained in step S1 and the mixture obtained in...

Embodiment 3

[0051]A high-gloss glaze for ancient architectural porcelain, comprising the following components in parts by weight: 25 parts of potassium feldspar, 12 parts of hollow nanoparticles, 9 parts of modified glass microspheres, 18 parts of quartz, 5 parts of niobium oxide, and 7 parts of magnesium oxide , 11 parts of hydroxymethyl cellulose sodium, 6 parts of barium chromate, 19 parts of kaolin and 55 parts of water.

[0052] A preparation method for high-gloss glaze for ancient building porcelain, comprising the following steps:

[0053] S1: Stir and mix the above-mentioned potassium feldspar, modified glass beads, quartz, niobium oxide, magnesium oxide, barium chromate, kaolin and water, after mixing evenly, ball mill into a glaze slurry, pass through a 400-mesh sieve, and set aside;

[0054] S2: Stir and mix sodium hydroxymethyl cellulose and hollow nanoparticles, after mixing evenly, set aside;

[0055] S3: Mix the glaze slurry obtained in step S1 and the mixture obtained in ...

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PUM

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Abstract

The invention relates to highlight glaze for ancient building porcelain as well as a preparation method and application of the highlight glaze. The highlight glaze for the ancient building porcelain comprises the following components in parts by weight: 20-30 parts of potassium feldspar, 10-15 parts of hollow nanoparticles, 8-10 parts of modified glass beads, 15-20 parts of quartz, 3-6 parts of niobium oxide, 6-8 parts of magnesium oxide, 10-12 parts of a binder, 5-8 parts of barium chromate, 18-20 parts of kaolin and 50-60 parts of water. The preparation method of the highlight glaze for ancient building porcelain comprises the following steps: S1, stirring and mixing potassium feldspar, modified glass beads, quartz, niobium oxide, magnesium oxide, barium chromate, kaolin and water, and performing ball milling to obtain glaze slip; s2, stirring and mixing a binder and the hollow nanoparticles; and S3, uniformly mixing the glaze slip obtained in the step S1 and the mixture obtained in the step S2 to obtain the highlight glaze for the ancient building porcelain. The prepared highlight glaze for ancient building porcelain is smooth in glaze surface, and has excellent glossiness and good mechanical properties.

Description

technical field [0001] The invention relates to the technical field of ceramic glaze water, in particular to a high-gloss glaze for ancient building porcelain, a preparation method and application thereof. Background technique [0002] At present, the existing ancient building porcelain is made by firing at high temperature, and due to the raw material composition of the ancient building porcelain itself, the existing architectural porcelain has many shortcomings, such as complicated preparation process and high firing temperature, which leads to waste of energy There are many, and the quality of fired porcelain products is not ideal, there are problems of low gloss, low strength or poor toughness of ceramic products, it is difficult to achieve the characteristics of high whiteness and high strength, so a lot of damage occurs during the construction process , not only lead to high cost of each link, but also cause waste of energy. Contents of the invention [0003] In vie...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C04B41/86C03C8/00
CPCC04B41/5022C04B41/86C04B41/009C03C8/00C04B33/00C04B35/00C04B41/4535C04B41/0072
Inventor 林主团
Owner 德化县万宝古建陶瓷有限公司
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