Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Low-temperature fast-fired wall and floor tile wear-resistant glaze and preparation method of wall and floor tile wear-resistant glaze layer
The invention discloses a low-temperature fast-fired wall and floor tile wear-resistant glaze and a preparation method of a wall and floor tile wear-resistant glaze layer. The wear-resistant glaze is based on a basic glaze and a wear-resistant surface glaze, the firing temperature of the basic glaze material is 1100-1150 DEG C; the wear-resistant surface glaze is composed of a glaze material and a printing aid, the glaze material is prepared from the following raw materials in percentage by weight: 8-25% of wollastonite microcrystal powder, 13-35% of calcite, 4-10% of borocalcite, 0-5% of alumina micro powder, 5-18% of quartz and 15-45% of spodumene, the printing aid is prepared from the following raw materials in percentage by weight: 0.3-0.5% of printing paste and 0.1-0.35% of printing oil, and the printing paste and the printing oil account for 0.3-0.5% of the glaze material and 0.1-0.35% of the glaze material respectively. The wollastonite microcrystal powder, the calcite and the borocalcite are used as main anorthite crystal phase sources in the wear-resistant glaze layer, so that the wear-resistant ceramic wall and floor tile can well adapt to a low-temperature fast firing process required in building ceramic production, and meanwhile, the wear resistance of the building ceramic wall and floor tile is effectively improved.
本发明公开了一种低温快烧墙地砖耐磨釉料及其墙地砖耐磨釉层的制备方法,所述耐磨釉料基于基础釉料和耐磨面釉料;基础釉料的烧成温度为1100~1150℃;耐磨面釉料由釉料物料和印刷助剂组成,其中釉料物料的原料组成为硅灰石微晶粉8~25wt%、方解石13~35wt%、硼钙石4~10wt%、氧化铝微粉0~5wt%、石英5~18wt%、锂辉石15~45wt%,印刷助剂的原料组成为印膏和印油,印膏、印油的用量分别为釉料物料的0.3~0.5wt%、0.1~0.35wt%。本发明采用硅灰石微晶粉、方解石与硼钙石作为耐磨釉层中主要的钙长石晶相来源,能够很好地适应建筑陶瓷生产中要求的低温快烧工艺,同时有效提升了建筑陶瓷墙地砖的耐磨性能。
Low-temperature fast-fired wall and floor tile wear-resistant glaze and preparation method of wall and floor tile wear-resistant glaze layer
The invention discloses a low-temperature fast-fired wall and floor tile wear-resistant glaze and a preparation method of a wall and floor tile wear-resistant glaze layer. The wear-resistant glaze is based on a basic glaze and a wear-resistant surface glaze, the firing temperature of the basic glaze material is 1100-1150 DEG C; the wear-resistant surface glaze is composed of a glaze material and a printing aid, the glaze material is prepared from the following raw materials in percentage by weight: 8-25% of wollastonite microcrystal powder, 13-35% of calcite, 4-10% of borocalcite, 0-5% of alumina micro powder, 5-18% of quartz and 15-45% of spodumene, the printing aid is prepared from the following raw materials in percentage by weight: 0.3-0.5% of printing paste and 0.1-0.35% of printing oil, and the printing paste and the printing oil account for 0.3-0.5% of the glaze material and 0.1-0.35% of the glaze material respectively. The wollastonite microcrystal powder, the calcite and the borocalcite are used as main anorthite crystal phase sources in the wear-resistant glaze layer, so that the wear-resistant ceramic wall and floor tile can well adapt to a low-temperature fast firing process required in building ceramic production, and meanwhile, the wear resistance of the building ceramic wall and floor tile is effectively improved.
本发明公开了一种低温快烧墙地砖耐磨釉料及其墙地砖耐磨釉层的制备方法,所述耐磨釉料基于基础釉料和耐磨面釉料;基础釉料的烧成温度为1100~1150℃;耐磨面釉料由釉料物料和印刷助剂组成,其中釉料物料的原料组成为硅灰石微晶粉8~25wt%、方解石13~35wt%、硼钙石4~10wt%、氧化铝微粉0~5wt%、石英5~18wt%、锂辉石15~45wt%,印刷助剂的原料组成为印膏和印油,印膏、印油的用量分别为釉料物料的0.3~0.5wt%、0.1~0.35wt%。本发明采用硅灰石微晶粉、方解石与硼钙石作为耐磨釉层中主要的钙长石晶相来源,能够很好地适应建筑陶瓷生产中要求的低温快烧工艺,同时有效提升了建筑陶瓷墙地砖的耐磨性能。
Low-temperature fast-fired wall and floor tile wear-resistant glaze and preparation method of wall and floor tile wear-resistant glaze layer
一种低温快烧墙地砖耐磨釉料及其墙地砖耐磨釉层的制备方法
HUANG HONG (Autor:in) / LIN KEHUI (Autor:in) / ZHA YUE (Autor:in) / WANG YONGQIANG (Autor:in) / YU HAILONG (Autor:in)
15.10.2024
Patent
Elektronische Ressource
Chinesisch
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