A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
The invention relates to the technical field of environment-friendly building materials, in particular to an environment-friendly building material and a preparation method of a nanopore aqueous solution additive of the environment-friendly building material. According to the preparation method of the nano-pore aqueous solution additive, water is used as a carrier to be changed into water vapor during boiling, the water vapor passes through a nano-pore material with the pore size smaller than 50 nanometers, and an aqueous solution obtained after the water vapor is condensed by a condenser is the nano-pore aqueous solution additive capable of releasing far infrared rays and negative ions. The nano-pore aqueous solution additive disclosed by the invention can generate 4-14 micron far infrared rays at the normal temperature of 30-35 DEG C, and can generate negative ions. The nano-pore aqueous solution additive disclosed by the invention can be prepared into an environment-friendly material, and endows health and health care functions for selection and use of modern buildings and decoration materials.
本发明涉及环保建材技术领域,具体的涉及一种环保建材、及其具有的纳米孔隙水溶液添加剂的制备方法。该种纳米孔隙水溶液添加剂的制备方法,将水作为载体于沸腾时变成水蒸气,让水蒸气通过孔隙尺寸小于50纳米尺寸的纳米孔隙材料,水蒸汽经过冷凝器冷凝后取得的水溶液即为可释放远红外线及负离子的纳米孔隙水溶液添加剂。本发明的纳米孔隙水溶液添加剂可以在常温摄氏30-35℃下产生的4-14微米远红外线、可产生负离子;本发明纳米孔隙水溶液添加剂可在制备成环保料料,对于现代建筑和装修材料的选用上赋予健康和保健的功能。
The invention relates to the technical field of environment-friendly building materials, in particular to an environment-friendly building material and a preparation method of a nanopore aqueous solution additive of the environment-friendly building material. According to the preparation method of the nano-pore aqueous solution additive, water is used as a carrier to be changed into water vapor during boiling, the water vapor passes through a nano-pore material with the pore size smaller than 50 nanometers, and an aqueous solution obtained after the water vapor is condensed by a condenser is the nano-pore aqueous solution additive capable of releasing far infrared rays and negative ions. The nano-pore aqueous solution additive disclosed by the invention can generate 4-14 micron far infrared rays at the normal temperature of 30-35 DEG C, and can generate negative ions. The nano-pore aqueous solution additive disclosed by the invention can be prepared into an environment-friendly material, and endows health and health care functions for selection and use of modern buildings and decoration materials.
本发明涉及环保建材技术领域,具体的涉及一种环保建材、及其具有的纳米孔隙水溶液添加剂的制备方法。该种纳米孔隙水溶液添加剂的制备方法,将水作为载体于沸腾时变成水蒸气,让水蒸气通过孔隙尺寸小于50纳米尺寸的纳米孔隙材料,水蒸汽经过冷凝器冷凝后取得的水溶液即为可释放远红外线及负离子的纳米孔隙水溶液添加剂。本发明的纳米孔隙水溶液添加剂可以在常温摄氏30-35℃下产生的4-14微米远红外线、可产生负离子;本发明纳米孔隙水溶液添加剂可在制备成环保料料,对于现代建筑和装修材料的选用上赋予健康和保健的功能。
Environment-friendly building material and preparation method of nano-pore aqueous solution additive of environment-friendly building material
环保建材、及其具有的纳米孔隙水溶液添加剂的制备方法
XIE WENFU (author)
2020-07-24
Patent
Electronic Resource
Chinese