코나다

섬유 응용 분야에서 산화아연 분산의 장점

1. Antibacterial and anti-ultraviolet performance: nano-zinc oxide under sunlight and ultraviolet irradiation, can decompose negatively charged electrons and positively charged holes, activate oxygen in the air into reactive oxygen species, and most organic matter (including organic matter in bacteria) oxidation reaction, 따라서 대부분의 세균과 바이러스를 죽입니다.. This anti-bacterial and anti-ultraviolet properties make zinc oxide dispersion ideal for anti-bacterial and anti-ultraviolet treatment of textiles.

2.환경 보호: PVA와 같은 전통적인 섬유 슬러리와 비교 (폴리비닐알코올) nano zinc oxide dispersion has a lower COD value (산소 소비량), 그리고 더 나은 용해도, without high temperature cooking, 따라서 에너지 소비와 환경 오염을 줄입니다.. The use of nano zinc oxide dispersion modified starch mixture to partially replace PVA is helpful to reduce the amount of PVA in pure cotton yarn sizing and alleviate the pollution of desizing wastewater to water ecological environment.

3.슬러리의 성능 향상: the addition of nano-zinc oxide dispersion can significantly reduce the viscosity of the slurry, improve the fluidity and adhesion of the slurry, which is conducive to the spreading of the fiber, 분자 수준에서 긴밀한 접촉을 형성합니다., and then improve the bonding strength. The addition of nanometer zinc oxide can also increase the breaking strength of yarn, 원사 털 지수를 줄이고 원사 직조 능력을 향상시킵니다..

4. Functional enhancement: 산화아연 분산액은 항균 및 자외선 차단 기능을 제공할 뿐만 아니라, but also can adjust its performance according to needs through special processes, such as the introduction of modified nano zinc oxide, which can further enhance the antibacterial, bactericidal and washable resistance of textiles to meet the needs of specific application scenarios.

5. Cost effectiveness: Although the production cost of nano-zinc oxide dispersion may be slightly higher than that of traditional materials, considering the performance improvement and environmental benefits brought by it, 섬유 산업에서의 적용은 여전히 비용 효율적입니다.

요약, the application of zinc oxide dispersion in textiles has the advantages of antibacterial and anti-ultraviolet, 환경 보호, improvement of slurry performance, functional enhancement and cost-effectiveness.

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