Superhydrophobic coating on fabric by cold-plasma at atmospheric pressure
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phuoctv@hcmute.edu.vnKeywords:
Plasma, Super waterproof fabric, nano-coatingAbstract
The current methods of fabric production with superhydrophobic property have some defects such as waste a lot of power, complex operation, environmental pollution caused by chemicals. Therefore, in this paper the model of nano-coating on fabric by cold-Plasma is designed and manufactured to solve above problems. The advantage of the model is that using plasma rays directly at atmospheric pressure to create chemical bonds between fibre and nanoparticles, so the time of processing is reduced. The result of experiment shows that coating effect depends on fabric materials, supplied power (voltage, current) and coating time. The model creates superhydrophobic property on cotton spandex sucessfully due to using 110V, 1A and 1,5m/min of speed
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References
Haifeng Lu, Bin Fei, John H. Xin, Fabrication of UV-blocking nanohybrid coating via miniemulsion polymerization, Journal of Colloid and Interface Science 200(2006) 111-116.
R. Shishoo, Plasma technologies for textiles, 2007.
A Yadav, Virendra Prasad, A A Kathe, Functional finishing in cotton fabrics using zinc oxide nanoparticles.
F. Leroux, C. Campagne, A. Perwielz, L. Gengembre, Flourocarbon nano-coating of poly- ester fabrics by atmospheric air plasma with aerosol, Surface Science 254 (2008) 3902- 3908.
Minghua Yu, Goutuan Gu, Wei-Dong Meng, Feng-ling Qing, Superhydropobic cotton fab- ric coating based on a complex layer of silica nanoparticles on perfluorooctylated quater- nary ammonium silane coupling agent, Surface Science 253 (2007) 3669-3673.
Chien-Te Hsien, Fang-Lin Wu, Shu-Ying Yang, Superhydrophobicity from composite nano/ mircio structures: Carbon fabrics coated with silica nanoparticles, Surface and coatings technology 202 (2008) 6103-6108.
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