| abstract |
The present invention relates to a fiber having antimicrobial and far-infrared radiation function for incorporating a nano-sized antimicrobial / far-infrared radiation metal particle into a natural fiber material or a chemical fiber material (that is, a synthetic fiber) And a manufacturing method of the fabric.n n n According to the present invention, the fiber fabric having the antibacterial and far-infrared radiation function may be a viscose rayon fiber, a polyester fiber, a polyethylene fiber, a polypropylene fiber, Metal nanoparticles for antibacterial and far-infrared radiation are applied to a fiber material of a mixture of two or more selected from among cotton, cotton, nylon and pulp, (Ge), tungsten (W), silicon dioxide (SiO2), silicon dioxide (SiO2), and the like, which are selected from a mixture of silver (Ag), selenium (Se) ), Titanium dioxide (TiO2, Titanium Dioxide), aluminum oxide (Al2O3, aluminum oxide, aluminum oxide).n n n The method of applying the nanoparticles to the fabric includes a pretreatment process in which the nanoparticles and the fiber material are mixed in advance before spinning the fiber fabric yarn (FIBER) (i.e., yarn) A method in which the nanoparticles are adhered to a yarn and a fabric by mixing with a dye or pigment in a process of dyeing a yarn or a fabric and a tenter process as a final process of fabricating the fabric And mixing and mixing the nanoparticles with the processed water. By such a method, two or more antibacterial and far-infrared ray emitting nanoparticles selected from the nanoparticles are mixed and blended into the fabric, whereby antibacterial and far-infrared Thereby forming a raw material having a radiation function. |