Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
The invention relates to the technical field of fireproof building materials, and particularly discloses aluminum silicate high-temperature-resistant cotton for a fireproof coiled material and a preparation method thereof. The preparation method of the aluminum silicate high-temperature-resistant cotton for the fireproof coiled material comprises the following steps: mixing aluminum oxide, silicapowder and graphene nanoplatelets, melting, and blowing to form flocculent fibers; taking the blown flocculent fibers, adding an inorganic binding agent, an organic binding agent and an additive, andperforming mixed pulping to obtain pulp; producing a clothing blank by using a mechanical kneading forming method or a handicraft forming method; and treating the clothing blank at the temperature of100-150 DEG C to obtain the aluminum silicate high-temperature-resistant cotton for the fireproof coiled material. The aluminum silicate high-temperature-resistant cotton prepared by the method not only has fireproof performance, but also has good flexibility; the fireproof coiled material prepared from the aluminum silicate high-temperature-resistant cotton is good in flexibility, fireproof building materials of various structures can be coated in an omnibearing mode, and the excellent fireproof effect can be achieved.
本发明涉及防火建材技术领域,具体公开了一种防火卷材用硅酸铝耐高温棉及其制备方法。所述的防火卷材用硅酸铝耐高温棉的制备方法,包含如下步骤:将氧化铝,硅石粉以及石墨烯微片混合后熔融,喷吹成絮状纤维;取喷吹成的絮状纤维,加入无机结合剂、有机结合剂以及添加剂,进行混合制浆,得浆料;选用机械揉捏成型法或手艺成型生产出服坯;将服坯在100~150℃下进行处理,即得所述的防火卷材用硅酸铝耐高温棉。由该方法制备得到的硅酸铝耐高温棉不仅具防火性能,同时还具有很好的柔韧性;由所述硅酸铝耐高温棉制备得到的防火卷材柔韧性好,能够对各种结构的防火建材实现全方位包覆,可以实现优异的防火效果。
The invention relates to the technical field of fireproof building materials, and particularly discloses aluminum silicate high-temperature-resistant cotton for a fireproof coiled material and a preparation method thereof. The preparation method of the aluminum silicate high-temperature-resistant cotton for the fireproof coiled material comprises the following steps: mixing aluminum oxide, silicapowder and graphene nanoplatelets, melting, and blowing to form flocculent fibers; taking the blown flocculent fibers, adding an inorganic binding agent, an organic binding agent and an additive, andperforming mixed pulping to obtain pulp; producing a clothing blank by using a mechanical kneading forming method or a handicraft forming method; and treating the clothing blank at the temperature of100-150 DEG C to obtain the aluminum silicate high-temperature-resistant cotton for the fireproof coiled material. The aluminum silicate high-temperature-resistant cotton prepared by the method not only has fireproof performance, but also has good flexibility; the fireproof coiled material prepared from the aluminum silicate high-temperature-resistant cotton is good in flexibility, fireproof building materials of various structures can be coated in an omnibearing mode, and the excellent fireproof effect can be achieved.
本发明涉及防火建材技术领域,具体公开了一种防火卷材用硅酸铝耐高温棉及其制备方法。所述的防火卷材用硅酸铝耐高温棉的制备方法,包含如下步骤:将氧化铝,硅石粉以及石墨烯微片混合后熔融,喷吹成絮状纤维;取喷吹成的絮状纤维,加入无机结合剂、有机结合剂以及添加剂,进行混合制浆,得浆料;选用机械揉捏成型法或手艺成型生产出服坯;将服坯在100~150℃下进行处理,即得所述的防火卷材用硅酸铝耐高温棉。由该方法制备得到的硅酸铝耐高温棉不仅具防火性能,同时还具有很好的柔韧性;由所述硅酸铝耐高温棉制备得到的防火卷材柔韧性好,能够对各种结构的防火建材实现全方位包覆,可以实现优异的防火效果。
Aluminum silicate high-temperature-resistant cotton for fireproof coiled material and preparation method thereof
一种防火卷材用硅酸铝耐高温棉及其制备方法
15.09.2020
Patent
Elektronische Ressource
Chinesisch
Flame-retardant fireproof coiled material and preparation method thereof
| Europäisches Patentamt | 2021
Fireproof silicate fireproof FCA plate and preparation method thereof
| Europäisches Patentamt | 2022
HIGH-TEMPERATURE RESISTANT FIREPROOF MATERIAL, PREPARATION METHOD THEREFOR AND USE THEREOF
| Europäisches Patentamt | 2021
Silicate fireproof thermal insulation material and preparation method thereof
| Europäisches Patentamt | 2015