A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Low-temperature firing process for high-wear-resistance ceramic floor tiles
The invention relates to the technical field of ceramic floor tiles, in particular to a high-wear-resistance ceramic floor tile low-temperature firing process which comprises the following steps: S1, selecting silicate, aluminum oxide, zinc oxide, diatomite, calcium carbonate, aluminum phosphate, magnesium ore powder and iron oxide red powder according to a preset proportion; s2, stirring and mixing the mixed raw material A and water according to a preset weight ratio; s3, carrying out vacuum treatment on the slurry-shaped material; s4, pressing and forming the slurry by using a press machine; s5, carrying out low-temperature pre-sintering on the ground brick blank by adopting a microwave-assisted sintering technology; s6, coating a wear-resistant coating; and S7, the floor tiles subjected to coating treatment are subjected to final firing at the preset temperature. According to the invention, by adopting a low-temperature firing technology and an innovative raw material ratio, the energy consumption and the production cost are remarkably reduced, meanwhile, the wear resistance of the floor tile is improved, the floor tile shows remarkable advantages in the aspect of reducing environmental influence, and the dual goals of economic benefit and environment-friendly sustainable development are achieved.
本发明涉及陶瓷地砖技术领域,具体涉及一种高耐磨性陶瓷地砖低温烧制工艺,包括以下步骤:S1:先按照预设比例选取硅酸盐、氧化铝、氧化锌、硅藻土、碳酸钙、磷酸铝、镁矿粉以及铁红粉;S2:将混合原料A与水以预定比例重量搅拌混合;S3:对泥浆状物料进行真空处理;S4:使用压力机将泥浆压制成形;S5:采用微波辅助烧结技术对地砖坯体进行低温预烧制;S6:涂覆耐磨涂层;S7:将涂层处理过的地砖在预设温度下进行最终烧制。本发明,通过采用低温烧制技术和创新的原料配比,显著降低了能源消耗和生产成本,同时提高了地砖的耐磨性能,并在减少环境影响方面展现了显著优势,实现了经济效益与环保可持续发展的双重目标。
Low-temperature firing process for high-wear-resistance ceramic floor tiles
The invention relates to the technical field of ceramic floor tiles, in particular to a high-wear-resistance ceramic floor tile low-temperature firing process which comprises the following steps: S1, selecting silicate, aluminum oxide, zinc oxide, diatomite, calcium carbonate, aluminum phosphate, magnesium ore powder and iron oxide red powder according to a preset proportion; s2, stirring and mixing the mixed raw material A and water according to a preset weight ratio; s3, carrying out vacuum treatment on the slurry-shaped material; s4, pressing and forming the slurry by using a press machine; s5, carrying out low-temperature pre-sintering on the ground brick blank by adopting a microwave-assisted sintering technology; s6, coating a wear-resistant coating; and S7, the floor tiles subjected to coating treatment are subjected to final firing at the preset temperature. According to the invention, by adopting a low-temperature firing technology and an innovative raw material ratio, the energy consumption and the production cost are remarkably reduced, meanwhile, the wear resistance of the floor tile is improved, the floor tile shows remarkable advantages in the aspect of reducing environmental influence, and the dual goals of economic benefit and environment-friendly sustainable development are achieved.
本发明涉及陶瓷地砖技术领域,具体涉及一种高耐磨性陶瓷地砖低温烧制工艺,包括以下步骤:S1:先按照预设比例选取硅酸盐、氧化铝、氧化锌、硅藻土、碳酸钙、磷酸铝、镁矿粉以及铁红粉;S2:将混合原料A与水以预定比例重量搅拌混合;S3:对泥浆状物料进行真空处理;S4:使用压力机将泥浆压制成形;S5:采用微波辅助烧结技术对地砖坯体进行低温预烧制;S6:涂覆耐磨涂层;S7:将涂层处理过的地砖在预设温度下进行最终烧制。本发明,通过采用低温烧制技术和创新的原料配比,显著降低了能源消耗和生产成本,同时提高了地砖的耐磨性能,并在减少环境影响方面展现了显著优势,实现了经济效益与环保可持续发展的双重目标。
Low-temperature firing process for high-wear-resistance ceramic floor tiles
一种高耐磨性陶瓷地砖低温烧制工艺
ZANG XIAOSHUN (author) / DONG CHUANXI (author) / YE BING (author) / LI SHUANG (author) / YE LIBIN (author)
2024-04-26
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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