Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses a ceramic tile strengthened with nanometer magnesium titanate and a manufacturing method thereof. The ceramic tile comprises, by weight, 46 parts to 48 parts of wollastonite, 25 parts to 40 parts of marlstone, 18 parts to 32 parts of andalusite, 10 parts to 15 parts of nanometer magnesium titanate, 16 parts to 24 parts of electrolytic manganese residues, 12 parts to 18 parts of waste mortar, 8 parts to 16 parts of ash-calcium powder, 3 parts to 5 parts of phosphorous acid aluminum, 35 parts to 45 parts of compound clay, 10 parts to 15 parts of hydroxypropyl methyl cellulose, 4 parts to 6 parts of sodium humate, 2.5 parts to 4.5 parts of konjac glucomannan, 3 parts to 6 parts of ammonium citrate, and 2 parts to 3 parts of dodecyl glucose polyglycoside. In the matrix of the ceramic tile, because nanometer magnesium titanate, phosphorous acid aluminum, compound clay and other raw materials have mutual synergistic effect, the comprehensive strengthening effect is achieved, the coefficient of thermal expansion of the ceramic tile can be decreased, and the mechanical performance of the ceramic tile is improved; compared with an existing ceramic tile, the ceramic tile has the advantages of being high in mechanical strength, low in water absorption, fire-proof, capable of insulating thermal, good in weather resistance, good in use safety and long in service life, and has wide application prospect.
The invention discloses a ceramic tile strengthened with nanometer magnesium titanate and a manufacturing method thereof. The ceramic tile comprises, by weight, 46 parts to 48 parts of wollastonite, 25 parts to 40 parts of marlstone, 18 parts to 32 parts of andalusite, 10 parts to 15 parts of nanometer magnesium titanate, 16 parts to 24 parts of electrolytic manganese residues, 12 parts to 18 parts of waste mortar, 8 parts to 16 parts of ash-calcium powder, 3 parts to 5 parts of phosphorous acid aluminum, 35 parts to 45 parts of compound clay, 10 parts to 15 parts of hydroxypropyl methyl cellulose, 4 parts to 6 parts of sodium humate, 2.5 parts to 4.5 parts of konjac glucomannan, 3 parts to 6 parts of ammonium citrate, and 2 parts to 3 parts of dodecyl glucose polyglycoside. In the matrix of the ceramic tile, because nanometer magnesium titanate, phosphorous acid aluminum, compound clay and other raw materials have mutual synergistic effect, the comprehensive strengthening effect is achieved, the coefficient of thermal expansion of the ceramic tile can be decreased, and the mechanical performance of the ceramic tile is improved; compared with an existing ceramic tile, the ceramic tile has the advantages of being high in mechanical strength, low in water absorption, fire-proof, capable of insulating thermal, good in weather resistance, good in use safety and long in service life, and has wide application prospect.
Ceramic tile strengthened with nanometer magnesium titanate and manufacturing method thereof
26.08.2015
Patent
Elektronische Ressource
Englisch
IPC:
C04B
Kalk
,
LIME
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