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Preparation method of micro-stereoscopic wear-resistant ceramic tile
The invention discloses a preparation method of a micro-stereoscopic wear-resistant ceramic tile. The preparation method comprises the following steps: applying ground glaze on a green body, performing ink-jet printing on a pattern layer on the ground glaze, further applying underglaze on the pattern layer, further applying wear-resistant basic glaze and wear-resistant dry granular glaze on the underglaze layer, firing and polishing to obtain the micro-stereoscopic wear-resistant ceramic tile. By adjusting the composition of the undertaking glaze and using the undertaking glaze of a high-aluminum and high-zinc formula system, the undertaking glaze plays a role in connecting the previous part and the next part, the aluminum content in the formula is higher than that in a general formula system, the aluminum oxide is a high-hardness compound, and the aluminum oxide (Mohs hardness grade 9) is introduced into the formula, so that the wear resistance and the hardness of a glaze surface can be obviously improved; the alumina is generally introduced by corundum and common alumina, and aluminum introduced by corundum and alumina has small influence on the melting temperature of the glaze, so that a composite multiphase microcrystalline structure is formed, and the hardness and wear resistance of the glaze surface are improved.
本发明公开了一种微立体感耐磨瓷砖的制备方法,包括在坯体上施底釉,在底釉上喷墨打印图案层,在图案层进一步施承接釉,进一步在承接釉层上施耐磨基础釉,耐磨干粒釉,烧成、抛光得到微立体感耐磨瓷砖。本发明通过调整承接釉的组成,使用高铝高锌配方体系的承接釉,起到承上启下的作用,配方中铝含量要比一般配方体系高,氧化铝是一种高硬度的化合物,配方当中引入氧化铝(莫氏硬度9级)可以明显的提高釉面耐磨性能和硬度,通常氧化铝的引入一般为刚玉和普通氧化铝,刚玉、氧化铝引入的铝,对釉熔融温度影响较小,使其形成了复合多相微晶结构,从而提高了釉面硬度和耐磨度。
Preparation method of micro-stereoscopic wear-resistant ceramic tile
The invention discloses a preparation method of a micro-stereoscopic wear-resistant ceramic tile. The preparation method comprises the following steps: applying ground glaze on a green body, performing ink-jet printing on a pattern layer on the ground glaze, further applying underglaze on the pattern layer, further applying wear-resistant basic glaze and wear-resistant dry granular glaze on the underglaze layer, firing and polishing to obtain the micro-stereoscopic wear-resistant ceramic tile. By adjusting the composition of the undertaking glaze and using the undertaking glaze of a high-aluminum and high-zinc formula system, the undertaking glaze plays a role in connecting the previous part and the next part, the aluminum content in the formula is higher than that in a general formula system, the aluminum oxide is a high-hardness compound, and the aluminum oxide (Mohs hardness grade 9) is introduced into the formula, so that the wear resistance and the hardness of a glaze surface can be obviously improved; the alumina is generally introduced by corundum and common alumina, and aluminum introduced by corundum and alumina has small influence on the melting temperature of the glaze, so that a composite multiphase microcrystalline structure is formed, and the hardness and wear resistance of the glaze surface are improved.
本发明公开了一种微立体感耐磨瓷砖的制备方法,包括在坯体上施底釉,在底釉上喷墨打印图案层,在图案层进一步施承接釉,进一步在承接釉层上施耐磨基础釉,耐磨干粒釉,烧成、抛光得到微立体感耐磨瓷砖。本发明通过调整承接釉的组成,使用高铝高锌配方体系的承接釉,起到承上启下的作用,配方中铝含量要比一般配方体系高,氧化铝是一种高硬度的化合物,配方当中引入氧化铝(莫氏硬度9级)可以明显的提高釉面耐磨性能和硬度,通常氧化铝的引入一般为刚玉和普通氧化铝,刚玉、氧化铝引入的铝,对釉熔融温度影响较小,使其形成了复合多相微晶结构,从而提高了釉面硬度和耐磨度。
Preparation method of micro-stereoscopic wear-resistant ceramic tile
一种微立体感耐磨瓷砖的制备方法
YU SHUILIN (author) / ZENG QINGRONG (author) / ZHAO XIUJUAN (author) / ZHOU FANGYA (author)
2023-01-31
Patent
Electronic Resource
Chinese
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