Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Ceramic tile dry granules, preparation method thereof, ceramic tile and preparation method thereof
The invention relates to the technical field of ceramic tile preparation, in particular to a ceramic tile dry particle, a preparation method thereof, a ceramic tile and a preparation method of the ceramic tile. The manufacturing method of the ceramic tile dry granules comprises the following steps: uniformly mixing the dry granule composition, and calcining. Wherein the dry particle composition comprises the following components in percentage by weight: 50%-60% of Si, 4%-6% of Ca, 2%-4% of Sr, 17.5%-21% of Al, 1%-2% of Mg, 0.1%-0.15% of Li, 2%-4% of K, 6%-12% of Ba, 3%-5% of Na and 4%-7% of Zn. The dry particle composition can form tiny crystals after being calcined, the tiny crystals are fixed on a ceramic tile substrate, and when light reaches the surface of a finished product, the crystals interfere with visible light waves to form scattering or diffuse reflection, so that a glaze surface is fine and smooth, has jade-like luster, is not easy to scratch and has better stain resistance.
本申请涉及陶瓷砖制备技术领域,具体而言,涉及一种陶瓷砖干粒及其制备方法、陶瓷砖及其制备方法。陶瓷砖干粒的制造方法,包括:将干粒组合物混合均匀,并进行煅烧。其中,干粒组合物按照重量百分含量计,包括:Si:50%‑60%、Ca:4%‑6%、Sr:2%‑4%、Al:17.5%‑21%、Mg:1%‑2%、Li:0.1%‑0.15%、K:2%‑4%、Ba:6%‑12%、Na:3%‑5%、Zn:4%‑7%。干粒组合物经过煅烧以后可以形成微小晶体,将其固定在陶瓷砖基体上,光线到达成品表面时晶体对可见光波产生干扰,形成散射或漫反射,从而使釉面细腻丝滑、具有玉石状光泽、表面不易刮花、耐污性能较佳。
Ceramic tile dry granules, preparation method thereof, ceramic tile and preparation method thereof
The invention relates to the technical field of ceramic tile preparation, in particular to a ceramic tile dry particle, a preparation method thereof, a ceramic tile and a preparation method of the ceramic tile. The manufacturing method of the ceramic tile dry granules comprises the following steps: uniformly mixing the dry granule composition, and calcining. Wherein the dry particle composition comprises the following components in percentage by weight: 50%-60% of Si, 4%-6% of Ca, 2%-4% of Sr, 17.5%-21% of Al, 1%-2% of Mg, 0.1%-0.15% of Li, 2%-4% of K, 6%-12% of Ba, 3%-5% of Na and 4%-7% of Zn. The dry particle composition can form tiny crystals after being calcined, the tiny crystals are fixed on a ceramic tile substrate, and when light reaches the surface of a finished product, the crystals interfere with visible light waves to form scattering or diffuse reflection, so that a glaze surface is fine and smooth, has jade-like luster, is not easy to scratch and has better stain resistance.
本申请涉及陶瓷砖制备技术领域,具体而言,涉及一种陶瓷砖干粒及其制备方法、陶瓷砖及其制备方法。陶瓷砖干粒的制造方法,包括:将干粒组合物混合均匀,并进行煅烧。其中,干粒组合物按照重量百分含量计,包括:Si:50%‑60%、Ca:4%‑6%、Sr:2%‑4%、Al:17.5%‑21%、Mg:1%‑2%、Li:0.1%‑0.15%、K:2%‑4%、Ba:6%‑12%、Na:3%‑5%、Zn:4%‑7%。干粒组合物经过煅烧以后可以形成微小晶体,将其固定在陶瓷砖基体上,光线到达成品表面时晶体对可见光波产生干扰,形成散射或漫反射,从而使釉面细腻丝滑、具有玉石状光泽、表面不易刮花、耐污性能较佳。
Ceramic tile dry granules, preparation method thereof, ceramic tile and preparation method thereof
陶瓷砖干粒及其制备方法、陶瓷砖及其制备方法
PANG YUANLUE (Autor:in) / ZHANG JUNQING (Autor:in)
01.07.2022
Patent
Elektronische Ressource
Chinesisch
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