▎ 摘　　要

NOVELTY - The method involves taking and mixing 45 pts. wt. of polyphenylsulfone terephthalamide fiber, 30 pts. wt. of carbon fiber and 40 pts. wt. glass fiber in the wool machine. The mixed fiber is processed into burl cotton. The twist of the yarn is 650twists/m. A predetermined number of arranged bobbins are drawn to the machine head and wound on the warp beam. A sizing machine is used to draw out the warp on the warp beam and immerse the warp in the sizing liquid for sizing. The finished fabric is soaked in an alkali liquid tank with a concentration of 7%-9% and is mixed with a mixer. The soaked finished fabric is separated from the alkali liquid and is cleaned using a cleaning machine. The finished fabric is dyed and calendered. The graphene and far-infrared nanopowder are diluted into the water slurry. The water slurry is evenly applied on the finished wristband. The water slurry is squeezed into the finished fabric through a scraper. USE - Carbon-glass hybrid variable-angle winding method for producing cuff for athlete. ADVANTAGE - The oxide in the graphene is very effective in inhibiting the growth of Escherichia coli without harming human cells. The cuff enables improving tissue oxygen supply, improving metabolism, and enhancing immunity. The method greatly improves the molding quality of the wristband and greatly improves the wear resistance and tensile properties of the wristband. The finished cuff after one-time treatment increases the moisture absorption performance, which greatly improves the comfort of the wearer. DETAILED DESCRIPTION - An INDEPENDENT CLAIM is included for a method of using carbon-glass hybrid variable angle.