A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Ultrathin ultra-white talc constructional ceramic tile and manufacturing method thereof
The invention discloses an ultrathin ultra-white talc constructional ceramic tile and a manufacturing method thereof. A ceramic body comprises the following chemical components by weight: 50 to 62% of SiO2, 15 to 30% of Al2O3, 5 to 17% of MgO, 2 to 10% of K2O, 2 to 5% of Na2O and 1 to 10% of CaO. The ceramic tile comprises the following raw materials by weight: 20 to 50% of talc, 10 to 40% of feldspar, 15 to 30% of kaolin, 0 to 5% of bentonite, 0 to 5% of quartz powder and 2 to 15% of alumina powder. The invention has the following beneficial effects: the ultrathin ultra-white talc constructional ceramic tile has good formability; through changing of a formula, the purposes of ultra-whiteness and ultrathinness are realized, and the thickness of the tile is only 4.8 mm, half of the thickness of a traditional tile; resources of raw materials are saved, and comprehensive energy consumption is reduced; the load of a building is effectively reduced; and directed at high-rise buildings, the ceramic tile has more obvious effect and can prolong the service life of the buildings.
Ultrathin ultra-white talc constructional ceramic tile and manufacturing method thereof
The invention discloses an ultrathin ultra-white talc constructional ceramic tile and a manufacturing method thereof. A ceramic body comprises the following chemical components by weight: 50 to 62% of SiO2, 15 to 30% of Al2O3, 5 to 17% of MgO, 2 to 10% of K2O, 2 to 5% of Na2O and 1 to 10% of CaO. The ceramic tile comprises the following raw materials by weight: 20 to 50% of talc, 10 to 40% of feldspar, 15 to 30% of kaolin, 0 to 5% of bentonite, 0 to 5% of quartz powder and 2 to 15% of alumina powder. The invention has the following beneficial effects: the ultrathin ultra-white talc constructional ceramic tile has good formability; through changing of a formula, the purposes of ultra-whiteness and ultrathinness are realized, and the thickness of the tile is only 4.8 mm, half of the thickness of a traditional tile; resources of raw materials are saved, and comprehensive energy consumption is reduced; the load of a building is effectively reduced; and directed at high-rise buildings, the ceramic tile has more obvious effect and can prolong the service life of the buildings.
Ultrathin ultra-white talc constructional ceramic tile and manufacturing method thereof
HUANG JIAN (author)
2016-02-17
Patent
Electronic Resource
English
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