A platform for research: civil engineering, architecture and urbanism
Adsorption type decoration material and decoration method thereof
The invention discloses an adsorption type decoration material and a decoration method thereof, and relates to the technical field of decoration material preparation, and the following scheme is provided: mixing and stirring styrene emulsion and pure acrylate copolymer emulsion to a colloidal state for later use; the wetting agent, the dispersing agent, the negative ion additive, the defoaming agent and the flatting agent are sequentially put into the reaction kettle, and the stirring speed is increased. According to the invention, the styrene emulsion and the pure acrylate copolymer emulsion are used as main bodies and are mixed with the auxiliary agent to prepare the base material, and the base material is used at the bottom layer of the wall surface to improve the adhesiveness; crystalline aluminosilicate and activated aluminum oxide are matched with natural clay, shearing, stirring and mixing are conducted, then drying is conducted, the mixture is smashed into powder particles through a grinding machine to obtain a surface material, the surface material and an adhesive are mixed and coated on a bottom layer base material, the crystalline aluminosilicate, the activated aluminum oxide and the natural clay have the porous performance and the strong adsorption performance, and therefore the surface material and the adhesive are mixed and coated on the bottom layer base material. The purpose of adsorbing harmful molecules in indoor gas is achieved.
本发明公开了吸附式装修材料及其装修方法,本发明涉及装修材料制备技术领域,现提出如下方案,包括:将苯乙烯乳液与纯丙烯酸酯共聚乳液混合搅拌至胶状待用,将湿润剂、分散剂、负离子添加剂、消泡剂和流平剂依次放入到反应釜中并加快搅拌速率。本发明中以苯乙烯乳液与纯丙烯酸酯共聚乳液作为主体,配合助剂搅拌制备呈基料,以基料位置墙面底层提升其附着性;而依靠晶态硅铝酸盐、活性氧化铝配合天然黏土,剪切、搅拌、混合后进行烘干,经研磨机粉碎至粉末颗粒状得到面料,通过将面料和胶黏剂混合涂布在底层基料上,利用晶态硅铝酸盐、活性氧化铝和天然黏土自身具有多孔、强吸附性能,实现对室内气体中有害分子进行吸附的目的。
Adsorption type decoration material and decoration method thereof
The invention discloses an adsorption type decoration material and a decoration method thereof, and relates to the technical field of decoration material preparation, and the following scheme is provided: mixing and stirring styrene emulsion and pure acrylate copolymer emulsion to a colloidal state for later use; the wetting agent, the dispersing agent, the negative ion additive, the defoaming agent and the flatting agent are sequentially put into the reaction kettle, and the stirring speed is increased. According to the invention, the styrene emulsion and the pure acrylate copolymer emulsion are used as main bodies and are mixed with the auxiliary agent to prepare the base material, and the base material is used at the bottom layer of the wall surface to improve the adhesiveness; crystalline aluminosilicate and activated aluminum oxide are matched with natural clay, shearing, stirring and mixing are conducted, then drying is conducted, the mixture is smashed into powder particles through a grinding machine to obtain a surface material, the surface material and an adhesive are mixed and coated on a bottom layer base material, the crystalline aluminosilicate, the activated aluminum oxide and the natural clay have the porous performance and the strong adsorption performance, and therefore the surface material and the adhesive are mixed and coated on the bottom layer base material. The purpose of adsorbing harmful molecules in indoor gas is achieved.
本发明公开了吸附式装修材料及其装修方法,本发明涉及装修材料制备技术领域,现提出如下方案,包括:将苯乙烯乳液与纯丙烯酸酯共聚乳液混合搅拌至胶状待用,将湿润剂、分散剂、负离子添加剂、消泡剂和流平剂依次放入到反应釜中并加快搅拌速率。本发明中以苯乙烯乳液与纯丙烯酸酯共聚乳液作为主体,配合助剂搅拌制备呈基料,以基料位置墙面底层提升其附着性;而依靠晶态硅铝酸盐、活性氧化铝配合天然黏土,剪切、搅拌、混合后进行烘干,经研磨机粉碎至粉末颗粒状得到面料,通过将面料和胶黏剂混合涂布在底层基料上,利用晶态硅铝酸盐、活性氧化铝和天然黏土自身具有多孔、强吸附性能,实现对室内气体中有害分子进行吸附的目的。
Adsorption type decoration material and decoration method thereof
吸附式装修材料及其装修方法
WANG CHUANQI (author)
2024-01-19
Patent
Electronic Resource
Chinese
WALL DECORATION MATERIAL AND WALL DECORATION MATERIAL CONSTRUCTION METHOD
European Patent Office | 2020
|Decoration module, manufacturing method thereof, and decoration part
European Patent Office | 2015
|Grave decoration structure and decoration process thereof
European Patent Office | 2023
|