Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Coconut husk aerated building block and making method thereof
The invention discloses a coconut husk aerated building block and a making method thereof. The aerated building block is made from, by weight, 26-38 parts of coconut husk, 19-31 parts of fused magnesia, 22-36 parts of pebble chips, 28-42 parts of ceramic polishing wastes, 17-29 parts of gas ash, 23-37 parts of alkali residues, 25-40 parts of titanium slag, 21-33 parts of yellow phosphorus slag, 6-11 parts of konjaku flour, 16-28 parts of porous ceramsite, 12-18 parts of bentonite, 38-49 parts of aluminate cement, 6-9 parts of sodium metasilicate nonahydrate, 4-7 parts of sodium bicarbonate, 3-6 parts of solid citric acid and a proper amount of water. The added coconut husk mutually cooperates with the fused magnesia to improve the heat insulation and the heat stability of the aerated building block, and the added ceramic polishing wastes, the gas ash, the alkali residues and the titanium slag can improve the mechanical performances, the corrosion resistance, the shock resistance and the ageing resistance of the aerated building block. The aerated building block made in the invention has the advantages of excellent comprehensive performances, excellent mechanical performances, excellent heat insulation property, excellent corrosion resistance, excellent shock and excellent ageing resistance.
Coconut husk aerated building block and making method thereof
The invention discloses a coconut husk aerated building block and a making method thereof. The aerated building block is made from, by weight, 26-38 parts of coconut husk, 19-31 parts of fused magnesia, 22-36 parts of pebble chips, 28-42 parts of ceramic polishing wastes, 17-29 parts of gas ash, 23-37 parts of alkali residues, 25-40 parts of titanium slag, 21-33 parts of yellow phosphorus slag, 6-11 parts of konjaku flour, 16-28 parts of porous ceramsite, 12-18 parts of bentonite, 38-49 parts of aluminate cement, 6-9 parts of sodium metasilicate nonahydrate, 4-7 parts of sodium bicarbonate, 3-6 parts of solid citric acid and a proper amount of water. The added coconut husk mutually cooperates with the fused magnesia to improve the heat insulation and the heat stability of the aerated building block, and the added ceramic polishing wastes, the gas ash, the alkali residues and the titanium slag can improve the mechanical performances, the corrosion resistance, the shock resistance and the ageing resistance of the aerated building block. The aerated building block made in the invention has the advantages of excellent comprehensive performances, excellent mechanical performances, excellent heat insulation property, excellent corrosion resistance, excellent shock and excellent ageing resistance.
Coconut husk aerated building block and making method thereof
WU CHUANXING (Autor:in)
27.01.2016
Patent
Elektronische Ressource
Englisch
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