▎ 摘　　要

NOVELTY - Producing antibacterial cool-sensitive fabric comprises (i) twisting, spinning, weaving of the bamboo fiber to obtain the bamboo fiber fabric, double-twisting, spinning and weaving the moisture-absorbing and moisture-guiding fiber to obtain moisture-absorbing moisture-guiding fabric and double twisting, spinning and weaving the cool-feel fiber to obtain the cool feel fabric; and (ii) placing the bamboo fiber fabric, the first adhesive layer, moisture-absorbing and moisture-conductive fabric, the second adhesive layer and cooling fabric in sequence, hot-pressing and compositing to obtain the bacteriostatic cool-sensitive fabric. The preparation of cooling fiber comprises e.g. mixing the ultra-high molecular weight polyethylene, modified graphene oxide, decahydronaphthalene and antioxidant, blending, extruding, sending the spinning solution into the filter, extruding by spinneret plate to obtain the nascent fiber, extracting, drying and drafting to obtain the cool-sensitive fiber. USE - The method is useful for producing antibacterial cool-sensitive fabric. ADVANTAGE - The method obtains cool-sensitive fabric with good moisture-conducting performance through a multi-layer structure, provides channels for the migration of water through the action of the capillary so that the fabric has a good wicking effect and a wetting gradient effect thus synergistically improves the antibacterial, moisture-conducting and cool feeling effect. DETAILED DESCRIPTION - Producing antibacterial cool-sensitive fabric comprises (i) twisting, spinning, weaving of the bamboo fiber to obtain the bamboo fiber fabric, double-twisting, spinning and weaving the moisture-absorbing and moisture-guiding fiber to obtain moisture-absorbing moisture-guiding fabric and double twisting, spinning and weaving the cool-feel fiber to obtain the cool feel fabric; and (ii) placing the bamboo fiber fabric, the first adhesive layer, moisture-absorbing and moisture-conductive fabric, the second adhesive layer and cooling fabric in sequence, hot-pressing and compositing to obtain the bacteriostatic cool-sensitive fabric. The preparation of cooling fiber comprises mixing the ultra-high molecular weight polyethylene, modified graphene oxide, decahydronaphthalene and antioxidant, transferring into the double-screw extruder for blending and extruding to obtain the spinning solution, sending the spinning solution into the filter, extruding by the spinneret plate to obtain the nascent fiber, extracting, drying and drafting to obtain the cool-sensitive fiber. An INDEPENDENT CLAIM is also included for antibacterial cool-sensitive fabric, prepared as mentioned above.