Construction and Performance Evaluation of Functional Coating with Multi-Layered Structure on the Surface of Cashmere Fibers Based on Dispersed Graphene by Cationic Waterborne Polyurethane

Abstract

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In order to revise the problem of inferior hand-feeling of cashmere textile anti-filling finished with “addition” or “subtraction-addition” technology and indicate the effects of graphene distributed state in the surface on antistatic properties of cashmere fibers, A couple of flexible hydrophilic cationic polyurethanes used as a dispersion medium for graphene purposefully are designed and prepared. In addition, the state of polymer coating and graphene on the fiber is effectively controlled by foam micro-coating technology. The admirable pilling resistance, static resistance, and hand-feeling of cashmere textile attributed to two-layer polyurethane membranes realized through “bottom coating (BC)” and “surface coating (SC)” are definite and reliable. The results show that the cashmere textile obtained 1.0% (o.m.f. on mass of fabric) weight gain rate (WGR) under the foam bottom coating process, correspondingly, obtained 3–4% (o.m.f.) weight gain rate (WGR) under traditional dipping process, the pilling resistance grade of cashmere textile is improved to Grade 4–5 from Grade 1–2. The semi-embed state of graphene in the “surface coating” resin film on cashmere surface results in the decrease of static voltage half-life from 180 s to about 2 s. Clearly, the foam microcoating technology scheme of “BC+ SC@graphene” has achieved good expected results.

Keywords

• cashmere
• cationic polyurethane
• micro-coating
• graphene
• anti-pilling
• antistatic