Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
High-hardness super-wear-resistant sanitary ceramic glaze and preparation method thereof
The invention relates to the technical field of sanitary ceramics, in particular to a high-hardness super-wear-resistant sanitary ceramic glaze and a preparation method thereof. Comprising the following raw materials in parts by mass: 20-30 parts of potassium feldspar, 20-30 parts of quartz powder, 2-6 parts of kaolin, 3-8 parts of emery powder, 4-7 parts of calcite, 1-5 parts of dolomite, 0.3-1.3 parts of zinc oxide, 1.5-4 parts of strontium carbonate and 7-10 parts of zirconium silicate, and the particle size distribution of the emery powder and the strontium carbonate is as follows: 10-15% of 325-625-mesh particles, 20-25% of 625-1250-mesh particles and 60-70% of smaller than 1250-mesh particles. By accurately controlling the mass ratio of strontium carbonate to emery powder and particle size distribution and utilizing the synergistic effect of emery powder and strontium carbonate, the hardness and wear resistance of the sanitary ceramic glaze are improved.
本申请涉及卫生陶瓷技术领域,尤其涉及一种高硬度超耐磨卫生陶瓷釉面及其制备方法。包括以下质量份数的原料:钾长石20‑30份,石英粉20‑30份,高岭土2‑6份,刚玉粉3‑8份,方解石4‑7份,白云石1‑5份,氧化锌0.3‑1.3份,碳酸锶1.5‑4份,硅酸锆7‑10份,所述刚玉粉和所述碳酸锶颗粒粒径分布为325目‑625目为10‑15%,625目‑1250目为20‑25%,小于1250目为60‑70%,通过精准控制碳酸锶与刚玉粉的质量比以及颗粒粒径分布,利用刚玉粉与碳酸锶的协同作用,提高卫生陶瓷釉面的硬度和耐磨性。
High-hardness super-wear-resistant sanitary ceramic glaze and preparation method thereof
The invention relates to the technical field of sanitary ceramics, in particular to a high-hardness super-wear-resistant sanitary ceramic glaze and a preparation method thereof. Comprising the following raw materials in parts by mass: 20-30 parts of potassium feldspar, 20-30 parts of quartz powder, 2-6 parts of kaolin, 3-8 parts of emery powder, 4-7 parts of calcite, 1-5 parts of dolomite, 0.3-1.3 parts of zinc oxide, 1.5-4 parts of strontium carbonate and 7-10 parts of zirconium silicate, and the particle size distribution of the emery powder and the strontium carbonate is as follows: 10-15% of 325-625-mesh particles, 20-25% of 625-1250-mesh particles and 60-70% of smaller than 1250-mesh particles. By accurately controlling the mass ratio of strontium carbonate to emery powder and particle size distribution and utilizing the synergistic effect of emery powder and strontium carbonate, the hardness and wear resistance of the sanitary ceramic glaze are improved.
本申请涉及卫生陶瓷技术领域,尤其涉及一种高硬度超耐磨卫生陶瓷釉面及其制备方法。包括以下质量份数的原料:钾长石20‑30份,石英粉20‑30份,高岭土2‑6份,刚玉粉3‑8份,方解石4‑7份,白云石1‑5份,氧化锌0.3‑1.3份,碳酸锶1.5‑4份,硅酸锆7‑10份,所述刚玉粉和所述碳酸锶颗粒粒径分布为325目‑625目为10‑15%,625目‑1250目为20‑25%,小于1250目为60‑70%,通过精准控制碳酸锶与刚玉粉的质量比以及颗粒粒径分布,利用刚玉粉与碳酸锶的协同作用,提高卫生陶瓷釉面的硬度和耐磨性。
High-hardness super-wear-resistant sanitary ceramic glaze and preparation method thereof
一种高硬度超耐磨卫生陶瓷釉面及其制备方法
FENG HONGQIANG (Autor:in) / LI XIAOMAN (Autor:in)
31.10.2023
Patent
Elektronische Ressource
Chinesisch
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