Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Production method of foamed ceramic heat-insulation integrated building masonry
The invention discloses a production method of a foamed ceramic heat-insulation integrated building masonry, which is prepared from following raw materials, according to certain ratio: shale, basalt, talcum, lithium feldspar, a peptizing agent and sandstone. The method includes following steps: (1) crushing the raw materials into granular materials being less than 10 mm; (2) wet-milling the granular materials into slurry being 250 in meshes in a ball miller; (3) feeding the slurry into a drying column, and increasing the temperature to 300-330 DEG C; (4) drying and granulating the slurry to obtain granules; (5) sintering the granules through a tunnel kiln; (6) decreasing the temperature to normal temperature and discharging the material out from the kiln; and (7) cutting the material into the masonry. The integrated building masonry has the characters of being fireproofing and flame-retarding, being less in deformation coefficient, having an anti-aging effect, being stable in performance and being toxic-free and environment-friendly. The masonry is good in compatibility with a wall base layer and a plaster layer, is good in safety and stability and has the same service life of the building. Because that the masonry is excellent in fireproofing performance, an important defect that organic heat insulation materials are inflammable and are liable to age, thereby providing guarantee to energy saving and environment protection of various integrated buildings.
Production method of foamed ceramic heat-insulation integrated building masonry
The invention discloses a production method of a foamed ceramic heat-insulation integrated building masonry, which is prepared from following raw materials, according to certain ratio: shale, basalt, talcum, lithium feldspar, a peptizing agent and sandstone. The method includes following steps: (1) crushing the raw materials into granular materials being less than 10 mm; (2) wet-milling the granular materials into slurry being 250 in meshes in a ball miller; (3) feeding the slurry into a drying column, and increasing the temperature to 300-330 DEG C; (4) drying and granulating the slurry to obtain granules; (5) sintering the granules through a tunnel kiln; (6) decreasing the temperature to normal temperature and discharging the material out from the kiln; and (7) cutting the material into the masonry. The integrated building masonry has the characters of being fireproofing and flame-retarding, being less in deformation coefficient, having an anti-aging effect, being stable in performance and being toxic-free and environment-friendly. The masonry is good in compatibility with a wall base layer and a plaster layer, is good in safety and stability and has the same service life of the building. Because that the masonry is excellent in fireproofing performance, an important defect that organic heat insulation materials are inflammable and are liable to age, thereby providing guarantee to energy saving and environment protection of various integrated buildings.
Production method of foamed ceramic heat-insulation integrated building masonry
HOU ZHENDONG (Autor:in) / MAO XIMIN (Autor:in) / LIU DAQUAN (Autor:in) / HOU HUIFENG (Autor:in)
09.12.2015
Patent
Elektronische Ressource
Englisch
IPC:
C04B
Kalk
,
LIME
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