Deep-sea Nano Silver Ion Utility model patents
JQ core patented technology
Nano Silver Ion Plating Technology
Nano-silver ion vacuum high-energy beam current plating technology, by JQ exclusive use of nanotechnology to the traditional silver particles from 40nm to 0.1nm, with high-energy beam current operation of silver particles as fine as 0.1nm penetrate into the core of the yarn, so that the silver ions are not only attached to the surface of the yarn, but also penetrate into the internal, so that the silver ions arranged with a qualitative change. And under vacuum conditions can reduce the evaporation of material atoms, molecules in the process of flying to the special yarn and other molecular collision, reduce the gas in the active molecules and evaporation of the chemical reaction between the source material (such as oxidation, etc.), thus strengthening the density, purity, deposition rate and adhesion. As early as the 20th century, Germany, Italy, the United States took the lead in the plating of copper, nickel, silver and other metals on the fiber research. And developed related products, silver fiber fabric development has experienced four generations.
1/ chemical plating
The metal ions are reduced and precipitated on the surface of the base cloth to form a metal film by using a reducing agent in the chemicals. Its biggest disadvantage is that the chemical plating production process will produce sewage containing heavy metal ions, will certainly be subject to environmental protection constraints.
2/ Laser plating
A metal film is formed on the surface of the plated fiber substrate by reducing the metal ions in the solution using an electric current.
3/ vacuum plating
Surface functionalization of textile materials is achieved by depositing and stacking metals in a yard or molecular state on the surface of textile materials in a vacuum state to form a nanostructured metal film.
4/ Nano Silver Ion Plating
The application of the technology makes the radiation protection material conductivity, radiation protection effect, oxidation resistance to obtain a qualitative leap, but also lead to its silver content per square meter than other surface silver-plated fabrics much higher