Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention discloses a building coagulator and a preparation method thereof. The building coagulator is prepared by mixing three components, and the preparation method comprises the following steps: (1), weighing 0.95-1.15 kg of potassium carbonate, 2.9-3.3 kg of ferrous sulfate and 0.95-1.15 kg of naphthalene and dissolving in 35-40 L of a NaOH solution, and obtaining a component A; (2) weighing 0.6-0.7 kg of ammonium chloride, and dissolving the weighed ammonium chloride in 1.8-2.0 L of water to obtain a component B; (3) weighing 38-42 kg of calcium chloride and 5.5-6.5 kg of sulfur powder, and dissolving in 60 L of water to obtain a component C; and (4) mixing the component A, the component B and the component C to obtain the building coagulator. Compared with traditional building cement, the building coagulator is simple in preparation method, raw materials are easy to obtain, firing is not needed, the production cost is low, and repeated transportation of the raw materials is not needed.
本发明公开了一种建筑凝固剂及制备方法,该建筑凝固剂由三种组分混合制成,其制备方法包括以下步骤:(1)称取0.95~1.15kg碳酸钾、2.9~3.3kg硫酸亚铁、0.95~1.15kg萘溶解在35~40L NaOH溶液中,得到组分A;(2)称取0.6~0.7kg氯化铵溶解在1.8~2.0L水中,得到组分B;(3)称取38~42kg氯化钙、5.5~6.5kg硫粉溶解在60L水中,得到组分C;(4)将组分A、组分B、组分C混合制得建筑凝固剂。与传统的建筑水泥相比,本发明的建筑凝固剂制备方法简单,原材料易得,不需要烧制,生产成本低,而且不需要原材料重复运输。
The invention discloses a building coagulator and a preparation method thereof. The building coagulator is prepared by mixing three components, and the preparation method comprises the following steps: (1), weighing 0.95-1.15 kg of potassium carbonate, 2.9-3.3 kg of ferrous sulfate and 0.95-1.15 kg of naphthalene and dissolving in 35-40 L of a NaOH solution, and obtaining a component A; (2) weighing 0.6-0.7 kg of ammonium chloride, and dissolving the weighed ammonium chloride in 1.8-2.0 L of water to obtain a component B; (3) weighing 38-42 kg of calcium chloride and 5.5-6.5 kg of sulfur powder, and dissolving in 60 L of water to obtain a component C; and (4) mixing the component A, the component B and the component C to obtain the building coagulator. Compared with traditional building cement, the building coagulator is simple in preparation method, raw materials are easy to obtain, firing is not needed, the production cost is low, and repeated transportation of the raw materials is not needed.
本发明公开了一种建筑凝固剂及制备方法,该建筑凝固剂由三种组分混合制成,其制备方法包括以下步骤:(1)称取0.95~1.15kg碳酸钾、2.9~3.3kg硫酸亚铁、0.95~1.15kg萘溶解在35~40L NaOH溶液中,得到组分A;(2)称取0.6~0.7kg氯化铵溶解在1.8~2.0L水中,得到组分B;(3)称取38~42kg氯化钙、5.5~6.5kg硫粉溶解在60L水中,得到组分C;(4)将组分A、组分B、组分C混合制得建筑凝固剂。与传统的建筑水泥相比,本发明的建筑凝固剂制备方法简单,原材料易得,不需要烧制,生产成本低,而且不需要原材料重复运输。
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