Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Nano aerogel building material and preparation method thereof
The invention discloses a nano aerogel building material and a preparation method, relates to the field of aerogel building materials, and aims to solve the problems of large particle gaps, low strength and poor adhesive force in the prior art. Comprising the following raw materials: cellulose fibers, silica-alumina gel powder, antimony trioxide, aluminum hydroxide, aerogel, granite expanded particles, vermiculite, diatom ooze, a cement base, silicon element, a stabilizer, 901 rubber powder and hollow glass beads. Aerogel is added to fill particle gaps, antimony trioxide and aluminum hydroxide are added to improve the combustion performance, granite expanded particles, vermiculite and diatom ooze are added to make the coating more compact, cement base and silicon element are added to enhance the strength of the material, silica-alumina gel powder can increase the adhesive force, and the thermal insulation performance of the material is improved. The stabilizer enhances the suspension property of the material, and the 901 rubber powder can improve the constructability; the building material is high in strength, strong in adhesive force and excellent in suspension property and constructability.
本发明公开了一种纳米气凝胶建筑材料及制备方法,涉及气凝胶建材领域,旨在解决现有技术中颗粒缝隙大、强度较低,附着力不佳的问题,采用的技术方案是,包括以下原材料:纤维素纤维、硅铝凝胶粉、三氧化二锑、氢氧化铝、气凝胶、花岗岩膨化颗粒、蛭石、硅藻泥、水泥基、硅钢素、稳定剂、901胶粉、中空玻璃微珠;通过加入加入气凝胶,能够填充颗粒缝隙,加入三氧化二锑和氢氧化铝,能够提高燃烧性能,再加入花岗岩膨化颗粒、蛭石和硅藻泥,能够使涂层更加致密,添加水泥基和硅钢素能够增强材料的强度,而硅铝凝胶粉能够增大附着力,稳定剂增强了材料的悬浮性,901胶粉能够使施工性得到改善;本建筑材料强度高,附着力强,悬浮性和施工性优异。
Nano aerogel building material and preparation method thereof
The invention discloses a nano aerogel building material and a preparation method, relates to the field of aerogel building materials, and aims to solve the problems of large particle gaps, low strength and poor adhesive force in the prior art. Comprising the following raw materials: cellulose fibers, silica-alumina gel powder, antimony trioxide, aluminum hydroxide, aerogel, granite expanded particles, vermiculite, diatom ooze, a cement base, silicon element, a stabilizer, 901 rubber powder and hollow glass beads. Aerogel is added to fill particle gaps, antimony trioxide and aluminum hydroxide are added to improve the combustion performance, granite expanded particles, vermiculite and diatom ooze are added to make the coating more compact, cement base and silicon element are added to enhance the strength of the material, silica-alumina gel powder can increase the adhesive force, and the thermal insulation performance of the material is improved. The stabilizer enhances the suspension property of the material, and the 901 rubber powder can improve the constructability; the building material is high in strength, strong in adhesive force and excellent in suspension property and constructability.
本发明公开了一种纳米气凝胶建筑材料及制备方法,涉及气凝胶建材领域,旨在解决现有技术中颗粒缝隙大、强度较低,附着力不佳的问题,采用的技术方案是,包括以下原材料:纤维素纤维、硅铝凝胶粉、三氧化二锑、氢氧化铝、气凝胶、花岗岩膨化颗粒、蛭石、硅藻泥、水泥基、硅钢素、稳定剂、901胶粉、中空玻璃微珠;通过加入加入气凝胶,能够填充颗粒缝隙,加入三氧化二锑和氢氧化铝,能够提高燃烧性能,再加入花岗岩膨化颗粒、蛭石和硅藻泥,能够使涂层更加致密,添加水泥基和硅钢素能够增强材料的强度,而硅铝凝胶粉能够增大附着力,稳定剂增强了材料的悬浮性,901胶粉能够使施工性得到改善;本建筑材料强度高,附着力强,悬浮性和施工性优异。
Nano aerogel building material and preparation method thereof
一种纳米气凝胶建筑材料及制备方法
SHEN GUISHENG (Autor:in)
29.07.2022
Patent
Elektronische Ressource
Chinesisch
IPC:
C04B
Kalk
,
LIME
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