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A platform for research: civil engineering, architecture and urbanism
Production method of inorganic composite heat insulation block
The invention discloses a production method of an inorganic composite heat insulation block. The production method comprises the following steps: S1, selecting magnesium oxide, a magnesium chloride solution, fly ash, phosphoric acid, zinc stearate, high-temperature-resistant fibers, glass beads and a foaming agent in parts by weight; s2, uniformly stirring the selected raw materials in a stirring container; s3, selecting a filling mold according to the required shape, and molding the uniformly mixed solution in the filling mold; and S4, the filling mold is conveyed into a curing room to be cured for a period of time and then demolded, and the demolded product is cured again for a period of time and then packaged, transported and installed. The inorganic composite heat insulation block produced by the invention integrates heat insulation, water resistance, low carbon and environmental protection, can greatly reduce the heat loss of a pipeline, enables an external pipe seat and a pipe clamp to be at a low working temperature, does not need to be made of chromium-molybdenum alloy steel, saves precious alloy resources, reduces energy loss by reducing the heat loss, and improves the production efficiency. Therefore, atmospheric pollution is reduced, and ecological deterioration is slowed down.
本发明公开了一种无机复合隔热块的生产方法,包括如下步骤:S1、按重量份选用氧化镁、氯化镁溶液、粉煤灰、磷酸、硬脂酸锌、耐高温纤维、玻化微珠及发泡剂;S2、将选取的原料放置于搅拌容器中搅拌均匀;S3、按需求形状选用灌装模具,将混合均匀的溶液在灌装模具中成型;S4、将灌装模具送入养护间养护一段时间后脱模,并将脱模后的产品再次养护一段时间后打包、运输、安装。本发明生产的无机复合隔热块集隔热保温、防水、低碳环保性为一体,可以大大减少管道热量损失,又使外部管座管夹处于不高的工作温度,不必再用铬钼合金钢制造,节约宝贵的合金资源,通过降低热量损失,减少了能源损耗,从而减少了大气污染,减缓生态恶化。
Production method of inorganic composite heat insulation block
The invention discloses a production method of an inorganic composite heat insulation block. The production method comprises the following steps: S1, selecting magnesium oxide, a magnesium chloride solution, fly ash, phosphoric acid, zinc stearate, high-temperature-resistant fibers, glass beads and a foaming agent in parts by weight; s2, uniformly stirring the selected raw materials in a stirring container; s3, selecting a filling mold according to the required shape, and molding the uniformly mixed solution in the filling mold; and S4, the filling mold is conveyed into a curing room to be cured for a period of time and then demolded, and the demolded product is cured again for a period of time and then packaged, transported and installed. The inorganic composite heat insulation block produced by the invention integrates heat insulation, water resistance, low carbon and environmental protection, can greatly reduce the heat loss of a pipeline, enables an external pipe seat and a pipe clamp to be at a low working temperature, does not need to be made of chromium-molybdenum alloy steel, saves precious alloy resources, reduces energy loss by reducing the heat loss, and improves the production efficiency. Therefore, atmospheric pollution is reduced, and ecological deterioration is slowed down.
本发明公开了一种无机复合隔热块的生产方法,包括如下步骤:S1、按重量份选用氧化镁、氯化镁溶液、粉煤灰、磷酸、硬脂酸锌、耐高温纤维、玻化微珠及发泡剂;S2、将选取的原料放置于搅拌容器中搅拌均匀;S3、按需求形状选用灌装模具,将混合均匀的溶液在灌装模具中成型;S4、将灌装模具送入养护间养护一段时间后脱模,并将脱模后的产品再次养护一段时间后打包、运输、安装。本发明生产的无机复合隔热块集隔热保温、防水、低碳环保性为一体,可以大大减少管道热量损失,又使外部管座管夹处于不高的工作温度,不必再用铬钼合金钢制造,节约宝贵的合金资源,通过降低热量损失,减少了能源损耗,从而减少了大气污染,减缓生态恶化。
Production method of inorganic composite heat insulation block
一种无机复合隔热块的生产方法
WANG QIANG (author) / WU YIFAN (author)
2024-03-29
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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