Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High-whiteness matte fine wear-resistant glaze, ceramic tile and preparation method of high-whiteness matte fine wear-resistant glaze
The invention discloses high-whiteness matte fine wear-resistant glaze, a ceramic tile and a preparation method of the high-whiteness matte fine wear-resistant glaze. The high-whiteness matte fine wear-resistant glaze comprises the following raw materials: 0-3 parts of zinc oxide, 0-5 parts of barium carbonate, 10-30 parts of zirconium silicate, 5-15 parts of potassium feldspar, 10-20 parts of albite, 0-5 parts of calcite, 5-10 parts of dolomite, 5-10 parts of kaolin, 10-20 parts of frit, 5-15 parts of industrial zirconium tailings, 5-15 parts of power plant coal waste residues and 0-5 parts of quartz. According to the invention, the power plant coal waste residue and the industrial zirconium tailings with relatively high aluminum content and zirconium content are introduced to replace aluminum oxide and zirconium silicate for whitening; and due to the introduction of the power plant coal waste residue and the industrial zirconium tailings, the addition amount of two high-sintering-temperature and high-viscosity substances, namely aluminum oxide and zirconium silicate, is effectively reduced, the sintering temperature and high-temperature viscosity are reduced while the production cost and radioactivity are reduced, and the glaze is sintered more thoroughly and stretched more smoothly during melting, so that a finer hand feeling is realized.
本发明公开一种高白哑光细腻耐磨釉、陶瓷砖及其制备方法,其中,按重量份计,所述高白哑光细腻耐磨釉包括以下原料:氧化锌0~3份、碳酸钡0~5份、硅酸锆10~30份、钾长石5~15份、钠长石10~20份、方解石0~5份、白云石5~10份、高岭土5~10份、熔块10~20份、工业锆尾料5~15份、发电厂煤废渣5~15份、石英0~5份。本发明中通过引入铝含量和锆含量较高的发电厂煤废渣、工业锆尾料替代氧化铝、硅酸锆来进行增白;且因为发电厂煤废渣、工业锆尾料的引入,有效减少了氧化铝、硅酸锆这两个高烧结温度、高粘度物质的加入量,在降低生产成本及放射性的同时降低了烧结温度和高温粘度,使得釉在熔融时烧结更彻底,舒展更平整,从而实现更加细腻的手感。
High-whiteness matte fine wear-resistant glaze, ceramic tile and preparation method of high-whiteness matte fine wear-resistant glaze
The invention discloses high-whiteness matte fine wear-resistant glaze, a ceramic tile and a preparation method of the high-whiteness matte fine wear-resistant glaze. The high-whiteness matte fine wear-resistant glaze comprises the following raw materials: 0-3 parts of zinc oxide, 0-5 parts of barium carbonate, 10-30 parts of zirconium silicate, 5-15 parts of potassium feldspar, 10-20 parts of albite, 0-5 parts of calcite, 5-10 parts of dolomite, 5-10 parts of kaolin, 10-20 parts of frit, 5-15 parts of industrial zirconium tailings, 5-15 parts of power plant coal waste residues and 0-5 parts of quartz. According to the invention, the power plant coal waste residue and the industrial zirconium tailings with relatively high aluminum content and zirconium content are introduced to replace aluminum oxide and zirconium silicate for whitening; and due to the introduction of the power plant coal waste residue and the industrial zirconium tailings, the addition amount of two high-sintering-temperature and high-viscosity substances, namely aluminum oxide and zirconium silicate, is effectively reduced, the sintering temperature and high-temperature viscosity are reduced while the production cost and radioactivity are reduced, and the glaze is sintered more thoroughly and stretched more smoothly during melting, so that a finer hand feeling is realized.
本发明公开一种高白哑光细腻耐磨釉、陶瓷砖及其制备方法,其中,按重量份计,所述高白哑光细腻耐磨釉包括以下原料:氧化锌0~3份、碳酸钡0~5份、硅酸锆10~30份、钾长石5~15份、钠长石10~20份、方解石0~5份、白云石5~10份、高岭土5~10份、熔块10~20份、工业锆尾料5~15份、发电厂煤废渣5~15份、石英0~5份。本发明中通过引入铝含量和锆含量较高的发电厂煤废渣、工业锆尾料替代氧化铝、硅酸锆来进行增白;且因为发电厂煤废渣、工业锆尾料的引入,有效减少了氧化铝、硅酸锆这两个高烧结温度、高粘度物质的加入量,在降低生产成本及放射性的同时降低了烧结温度和高温粘度,使得釉在熔融时烧结更彻底,舒展更平整,从而实现更加细腻的手感。
High-whiteness matte fine wear-resistant glaze, ceramic tile and preparation method of high-whiteness matte fine wear-resistant glaze
一种高白哑光细腻耐磨釉、陶瓷砖及其制备方法
XIE YUEZENG (Autor:in) / YANG PAN (Autor:in) / LONG YOUFU (Autor:in) / LIU CHUANJUN (Autor:in) / LI MINGJIN (Autor:in) / WANG XIAO (Autor:in) / WANG YONGQIANG (Autor:in)
08.07.2022
Patent
Elektronische Ressource
Chinesisch
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