KR20130046530A - Polymer Carbon Nanotube Aramid Fiber and Polymer Graphene Aramid Fiber - Google Patents

Abstract

The present invention is intended to constitute a more effective aramid fiber by showing the properties of antimicrobial, deodorant, antifouling, anti-UV, antistatic, and carbon nanotubes or graphene to the aramid fiber bar A present invention -Polymer aramid fiber composed of a fiber formed with a polymer thin film by forming a polymer thin film on the surface of the aramid fiber yarn and the textile fabric after coating the yarn and fiber fabric of the aramid fiber by dipping or fine spraying in titanium dioxide phosphate solution B-1.Aramid fibers and fabrics are coated with carbon nanotube solution or graphene solution by dipping or fine spraying, and then deposited at high temperature. Carbon Nanotube Aramid Fiber Coated with Fins ) And graphene aramid fibers (yarn) are applied to the titanium dioxide phosphate solution by dipping or fine spraying and then deposited at a high temperature, and the polymer thin film on the surface of carbon nanotube aramid fiber (yarn) and graphene aramid fiber (yarn) The present invention relates to a polymer carbon nanotube aramid fiber and a polymer graphene aramid fiber composed of fibers having a polymer thin film formed thereon.

Aramid Fiber, Polymer Aramid Fiber, Carbon Nanotube, Graphene.

Description

Polymer Carbon Nanotube Aramid Fiber and Polymer Graphene Aramid Fiber

The present invention is intended to constitute a more effective aramid fibers by showing the properties of antimicrobial, deodorant, antifouling, anti-UV, antistatic, and carbon nanotubes or graphene to the aramid fibers, the present invention is Polymer aramid fiber composed of a polymer film formed by forming a polymer thin film on the surface of the aramid fiber yarn and the textile fabric by applying A-aramid fiber yarn and textile fabric to a titanium dioxide phosphate solution by dipping or fine spraying B-1.Aramid fibers and fabrics are coated with carbon nanotube solution or graphene solution by dipping or fine spraying, and then deposited at high temperature. Carbon nanotube aramid fiber formed by pin coating ) And graphene aramid fibers (yarn) are applied to the titanium dioxide phosphate solution by dipping or fine spraying and then deposited at a high temperature, and the polymer thin film on the surface of carbon nanotube aramid fiber (yarn) and graphene aramid fiber (yarn) The present invention relates to a polymer carbon nanotube aramid fiber and a polymer graphene aramid fiber composed of fibers having a polymer thin film formed thereon.

Aramid fibers (yarn) used in the present invention is a polyamide fiber having a structure similar to a spider web and exhibiting ten times the strength of steel, having excellent flexibility, being strong against heat, not burning or melting, and carbonizing black at a temperature exceeding 500 ° C. B-Aramid fiber to show the characteristics of carbon nanotubes and graphene-100 times stronger than steel and strong honeycomb structure for impact, elasticity and flexibility, and excellent thermal and electrical conductivity. After coating carbon nanotube solution or graphene solution on (yarn) and depositing it at high temperature, carbon nanotube aramid fiber (yarn) and graphene aramid formed by carbon nanotube coating or graphene coating on aramid fiber (yarn) surface Carbon nanotube aramid is coated with titanium dioxide phosphate solution on fiber (yarn) or A-aramid fiber (yarn) A polymer thin film is formed on the surface of the woven fiber and the graphene aramid fiber or the aramid fiber. The polymer thin film has high ion conductivity, which shows antistatic effect and UV protection, while the polymer thin film strong oxidizing the hydroxide reacts with oxygen and moisture hydroxyl radical (OH ^-) and superoxide ion (O ₂ ^-) than the efficacy of aramid fiber as appears efficacy, such as antibacterial, deodorizing, stain by the strong oxidative action as occurs It was able to comprise and came to invent.

The present invention is to solve the problem that the aramid fibers (yarn) to configure the more effective aramid fibers by showing the antibacterial, deodorization, antifouling, UV protection, antistatic effect and the properties of carbon nanotubes or graphene on the aramid fibers (yarn). to be

Therefore, the present invention is a high temperature after applying A-aramid fiber yarns and textile fabrics by dipping or fine spraying to titanium dioxide phosphate solution in order to show the antibacterial, deodorizing, antifouling, UV protection, antistatic effect on the aramid fibers (yarn) Is deposited on the surface of the aramid fiber fabric (yarn), and the polymer aramid fiber composed of fibers formed with the polymer thin film. The aramid fiber (yarn) is antibacterial, deodorant, antifouling, UV protection, antistatic effect as well as In order to show the properties of carbon nanotubes or graphene B-1.Aramid fiber yarns and fiber fabrics are coated with carbon nanotube solution or graphene solution by dipping or fine spraying and then deposited at high temperature And carbon nanotube coating or graphene coated on the surface of the textile fabric After sonotube aramid fibers (yarn) and graphene aramid fibers (yarn) are applied to titanium dioxide phosphate solution by dipping or fine spraying, and then deposited at high temperature, carbon nanotube aramid fibers (yarn) and graphene aramid fibers ( Yarn) Polymer carbon nanotube aramid fiber and polymer graphene aramid fiber composed of a polymer thin film formed on the surface of a polymer thin film are formed on the aramid fiber. The problem was solved by constructing more effective aramid fibers by showing the characteristics of the tube or the graphene.

The polymer carbon nanotube aramid fibers and the polymer graphene aramid fibers of the present invention are more effective by showing the properties of carbon nanotubes or graphene as well as antimicrobial, deodorizing, antifouling, UV protection, antistatic effect on the aramid fibers It is composed of aramid fiber and is effective

The present invention is intended to constitute a more effective aramid fiber by showing the properties of carbon nanotubes or graphene as well as the antibacterial, deodorant, antifouling, anti-UV, anti-static effect to the aramid fibers. When A-aramid fiber yarns and fiber fabrics are immersed in a titanium phosphate dioxide solution or coated with fine spray, and then deposited at a high temperature (100 ° C. to 200 ° C.), a polymer thin film is formed on the surface of the aramid fiber yarns and the fiber fabric. The present invention relates to a polymer aramid fiber composed of the formed fibers, and to B-1. Aramid fibers and textile fabrics are applied to carbon nanotube solution or graphene solution by dipping or fine spraying and then deposited at high temperature (100 ° C. to 200 ° C.). The carbon is composed of carbon nanotube coating or graphene coating on the aramid fiber yarn and textile fabric When nanotube aramid fibers (yarn) and graphene aramid fibers (yarn) are applied to a titanium phosphate dioxide solution by dipping or fine spraying and then deposited at a high temperature, carbon nanotube aramid fibers (yarn) and graphene aramid fibers ( The present invention relates to a polymer carbon nanotube aramid fiber and a polymer graphene aramid fiber composed of fibers having a polymer thin film formed on the surface of a yarn. The present invention provides antibacterial, deodorant, antifouling, anti-UV, anti-static and antistatic effects on aramid fibers. Of course, to show the properties of carbon nanotubes or the properties of graphene was invented to configure a more effective aramid fibers.

Claims (3)

According to the present invention, a polymer thin film is formed on the surface of an aramid fiber yarn and a fiber fabric by coating the yarn and fiber fabric of A-aramid fiber by dipping or fine spraying on a titanium phosphate dioxide solution and then depositing them at a high temperature (100 ° C. to 200 ° C.). A polymer aramid fiber composed of fibers formed of a polymer thin film. B-1.Aramid fibers and textile fabrics are coated with carbon nanotube solution or graphene solution by dipping or fine spraying, and then deposited at high temperature (100 ℃ ~ 200 ℃). Carbon nanotube aramid fiber (yarn) and graphene aramid fiber (yarn) formed by tube coating or graphene coating. The carbon nanotube aramid fiber (yarn) and graphene aramid fiber (yarn) constructed in the above 2 are applied to titanium dioxide phosphate solution by dipping or fine spraying, and then deposited at high temperature. Polymer carbon nanotube aramid fibers and polymer graphene aramid fibers composed of fibers having a polymer thin film formed on the surface of the fin aramid fiber (yarn)