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A platform for research: civil engineering, architecture and urbanism
Green energy-saving material applied to ultra-low energy consumption building
The invention discloses a green energy-saving material applied to ultra-low energy consumption buildings, and relates to the technical field of buildings. The green energy-saving material applied to the ultra-low energy consumption building comprises the following specific operation steps: S1, selecting 30-50 parts of clean fly ash without other impurities and 15-30 parts of furnace slag, S2, drying the selected fly ash and furnace slag at 60 DEG C, after drying for 10 hours, crushing the fly ash and furnace slag to 120 meshes, and S3, putting the crushed fly ash and furnace slag into a stirrer. According to the green energy-saving material applied to the ultra-low energy consumption building, the building material is prepared from solid wastes such as the fly ash and the furnace slag as raw materials through a special process, the volume weight is small, the heat preservation performance, the heat insulation performance, the sound insulation performance and the like are quite remarkable, the price is low, meanwhile, local industrial wastes are fully utilized by the building block, renewable utilization of resources is achieved, and the environment-friendly and energy-saving building block is suitable for large-scale production. And green development of economic and ecological environments is promoted.
本发明公开了一种应用于超低能耗建筑的绿色节能材料,涉及建筑技术领域。该应用于超低能耗建筑的绿色节能材料,具体操作步骤如下:所述S1、选取洁净无其他杂质的粉煤灰30‑50份、炉渣15‑30份,S2、将选取的粉煤灰与炉渣进行60℃烘干,经10小时烘干后,将粉煤灰与炉渣进行粉碎至120目,S3、将粉碎后的粉煤灰与炉渣放入搅拌机中。该应用于超低能耗建筑的绿色节能材料,通过利用粉煤灰、炉渣等固体废弃物为原材料,经特殊艺制作而成的建筑材料,具有容重较小,保温、隔热、隔音等性能十分显著,价格低廉,同时该砌块充分利用当地的工业废料,实现了资源的可再生利用,促进了经济和生态环境绿色发展。
Green energy-saving material applied to ultra-low energy consumption building
The invention discloses a green energy-saving material applied to ultra-low energy consumption buildings, and relates to the technical field of buildings. The green energy-saving material applied to the ultra-low energy consumption building comprises the following specific operation steps: S1, selecting 30-50 parts of clean fly ash without other impurities and 15-30 parts of furnace slag, S2, drying the selected fly ash and furnace slag at 60 DEG C, after drying for 10 hours, crushing the fly ash and furnace slag to 120 meshes, and S3, putting the crushed fly ash and furnace slag into a stirrer. According to the green energy-saving material applied to the ultra-low energy consumption building, the building material is prepared from solid wastes such as the fly ash and the furnace slag as raw materials through a special process, the volume weight is small, the heat preservation performance, the heat insulation performance, the sound insulation performance and the like are quite remarkable, the price is low, meanwhile, local industrial wastes are fully utilized by the building block, renewable utilization of resources is achieved, and the environment-friendly and energy-saving building block is suitable for large-scale production. And green development of economic and ecological environments is promoted.
本发明公开了一种应用于超低能耗建筑的绿色节能材料,涉及建筑技术领域。该应用于超低能耗建筑的绿色节能材料,具体操作步骤如下:所述S1、选取洁净无其他杂质的粉煤灰30‑50份、炉渣15‑30份,S2、将选取的粉煤灰与炉渣进行60℃烘干,经10小时烘干后,将粉煤灰与炉渣进行粉碎至120目,S3、将粉碎后的粉煤灰与炉渣放入搅拌机中。该应用于超低能耗建筑的绿色节能材料,通过利用粉煤灰、炉渣等固体废弃物为原材料,经特殊艺制作而成的建筑材料,具有容重较小,保温、隔热、隔音等性能十分显著,价格低廉,同时该砌块充分利用当地的工业废料,实现了资源的可再生利用,促进了经济和生态环境绿色发展。
Green energy-saving material applied to ultra-low energy consumption building
一种应用于超低能耗建筑的绿色节能材料
WU ZHIPING (author)
2022-11-04
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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