A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
Building energy-saving thermal insulation material and preparation method thereof
The invention discloses a building energy-saving thermal insulation material, which is characterized being prepared from the following raw materials by weight: 15-25 parts of cement, 15-20 parts of blast furnace water granulated slag, 35-40 parts of volcanic ash, 5-8 parts of surface function modified porous hollow aluminum oxide nanofibers, 2-4 parts of rare earth fluoride hollow nano ions, 3-6 parts of Lambda-cyhalothric acid modified aminated beta-cyclodextrin and 1-3 parts of a coupling agent. The invention also discloses a preparation method of the building energy-saving thermal insulation material. The building energy-saving thermal insulation material disclosed by the invention is excellent in comprehensive performance, strong in thermal insulation property, good in aging resistance, weather resistance and flame retardance, excellent in performance stability and mechanical property, green and environment-friendly in use, high in durability, weather resistance, corrosion resistance, freeze thawing resistance and reliability, and wide in application range.
本发明公开了一种建筑节能保温材料,其特征在于,包括按重量份计的如下原料制成:水泥15‑25份、高炉水渣15‑20份、火山灰35‑40份、表面功能改性多孔中空氧化铝纳米纤维5‑8份、稀土氟化物中空纳米离子2‑4份、三氟氯菊酸改性氨基化β‑环糊精3‑6份、偶联剂1‑3份。本发明还公开了所述建筑节能保温材料的制备方法。本发明公开的建筑节能保温材料综合性能佳,保温隔热性强,耐老化、耐候性和阻燃性能好,性能稳定性和机械力学性能优异,使用绿色环保,耐久性、抗风化、耐腐蚀、抗冻融和可靠性高,适应范围宽。
Building energy-saving thermal insulation material and preparation method thereof
The invention discloses a building energy-saving thermal insulation material, which is characterized being prepared from the following raw materials by weight: 15-25 parts of cement, 15-20 parts of blast furnace water granulated slag, 35-40 parts of volcanic ash, 5-8 parts of surface function modified porous hollow aluminum oxide nanofibers, 2-4 parts of rare earth fluoride hollow nano ions, 3-6 parts of Lambda-cyhalothric acid modified aminated beta-cyclodextrin and 1-3 parts of a coupling agent. The invention also discloses a preparation method of the building energy-saving thermal insulation material. The building energy-saving thermal insulation material disclosed by the invention is excellent in comprehensive performance, strong in thermal insulation property, good in aging resistance, weather resistance and flame retardance, excellent in performance stability and mechanical property, green and environment-friendly in use, high in durability, weather resistance, corrosion resistance, freeze thawing resistance and reliability, and wide in application range.
本发明公开了一种建筑节能保温材料,其特征在于,包括按重量份计的如下原料制成:水泥15‑25份、高炉水渣15‑20份、火山灰35‑40份、表面功能改性多孔中空氧化铝纳米纤维5‑8份、稀土氟化物中空纳米离子2‑4份、三氟氯菊酸改性氨基化β‑环糊精3‑6份、偶联剂1‑3份。本发明还公开了所述建筑节能保温材料的制备方法。本发明公开的建筑节能保温材料综合性能佳,保温隔热性强,耐老化、耐候性和阻燃性能好,性能稳定性和机械力学性能优异,使用绿色环保,耐久性、抗风化、耐腐蚀、抗冻融和可靠性高,适应范围宽。
Building energy-saving thermal insulation material and preparation method thereof
一种建筑节能保温材料及其制备方法
KANG YANAN (author)
2020-10-30
Patent
Electronic Resource
Chinese
IPC:
C04B
Kalk
,
LIME
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