Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Preparation method of compression-resistant impact-resistant thermal insulation building material
The invention discloses a preparation method of a compression-resistant impact-resistant thermal insulation building material, which comprises the following steps: adding organosilicon resin, an antioxidant and a thickener into a stirring kettle, mixing, and controlling the temperature at 95-100 DEG C to obtain a material A; mixing blast furnace powder, straw powder, aluminum hydroxide and calciumcarbonate, and filtering the crushed material through a 500-600-mesh sieve after crushing treatment is completed to obtain a material B; feeding the material A and the material B into a stirring kettle having a temperature of 80-90 DEG C and uniformly mixing the material A and the material B to obtain a mixture; and uniformly dispersing the mixture, putting the mixture into a colloid mill for grinding treatment, and putting the ground material into a drying oven for drying treatment to obtain the compression-resistant impact-resistant thermal insulation building material. The blast furnace powder, the aluminum hydroxide and the calcium carbonate are mixed for reaction, the compression resistance of the building material is good, meanwhile, the straw powder is added, the roughness of the building material is improved, and the heat preservation effect is improved.
本发明公开了一种耐压抗冲击保温建材的制备方法,包括如下步骤:将有机硅树脂、抗氧化剂与增稠剂加入到搅拌釜内进行混合,温度控制为95‑100℃,制得材料A;将高炉粉、秸秆粉、氢氧化铝与碳酸钙混合,粉碎处理结束后通过500‑600目筛对粉碎后的材料进行过滤得到材料B,将材料A与材料B送入至搅拌釜内进行搅拌,搅拌釜内温度为80‑90℃,混合均匀后制得混合料;将混合料均匀分散后投入胶体磨中进行研磨处理,将研磨后的物料投入烘箱中进行干燥处理,得到抗压抗冲击的保温建材。本发明通过利用高炉粉、氢氧化铝与碳酸钙混合反应,建筑材料的抗压性能好,同时加入秸秆粉提高建筑材料的粗糙程度,提高保温效果。
Preparation method of compression-resistant impact-resistant thermal insulation building material
The invention discloses a preparation method of a compression-resistant impact-resistant thermal insulation building material, which comprises the following steps: adding organosilicon resin, an antioxidant and a thickener into a stirring kettle, mixing, and controlling the temperature at 95-100 DEG C to obtain a material A; mixing blast furnace powder, straw powder, aluminum hydroxide and calciumcarbonate, and filtering the crushed material through a 500-600-mesh sieve after crushing treatment is completed to obtain a material B; feeding the material A and the material B into a stirring kettle having a temperature of 80-90 DEG C and uniformly mixing the material A and the material B to obtain a mixture; and uniformly dispersing the mixture, putting the mixture into a colloid mill for grinding treatment, and putting the ground material into a drying oven for drying treatment to obtain the compression-resistant impact-resistant thermal insulation building material. The blast furnace powder, the aluminum hydroxide and the calcium carbonate are mixed for reaction, the compression resistance of the building material is good, meanwhile, the straw powder is added, the roughness of the building material is improved, and the heat preservation effect is improved.
本发明公开了一种耐压抗冲击保温建材的制备方法,包括如下步骤:将有机硅树脂、抗氧化剂与增稠剂加入到搅拌釜内进行混合,温度控制为95‑100℃,制得材料A;将高炉粉、秸秆粉、氢氧化铝与碳酸钙混合,粉碎处理结束后通过500‑600目筛对粉碎后的材料进行过滤得到材料B,将材料A与材料B送入至搅拌釜内进行搅拌,搅拌釜内温度为80‑90℃,混合均匀后制得混合料;将混合料均匀分散后投入胶体磨中进行研磨处理,将研磨后的物料投入烘箱中进行干燥处理,得到抗压抗冲击的保温建材。本发明通过利用高炉粉、氢氧化铝与碳酸钙混合反应,建筑材料的抗压性能好,同时加入秸秆粉提高建筑材料的粗糙程度,提高保温效果。
Preparation method of compression-resistant impact-resistant thermal insulation building material
一种耐压抗冲击保温建材的制备方法
DENG SHUPING (Autor:in)
28.08.2020
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
/
C08K
Verwendung von anorganischen oder nichtmakromolekularen organischen Stoffen als Zusatzstoffe
,
USE OF INORGANIC OR NON-MACROMOLECULAR ORGANIC SUBSTANCES AS COMPOUNDING INGREDIENTS
/
C08L
COMPOSITIONS OF MACROMOLECULAR COMPOUNDS
,
Massen auf Basis makromolekularer Verbindungen
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