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Abstrakty
The limitation of aramid fiber is its surface property, which results in its very poor interfacial adhesion to most of commercial resins. In order to improve the surface property of the aramid fiber, ozone treatment was carried out in this work. The aramid fabrics were evaluated in terms of surface morphology, wicking effect, tensile property, and ball bursting test. The results showed that the surface morphology of aramid fabrics did not undergo an obvious change; the wicking effect increased slightly with an increase in ozone treatment time; the tenacity and elongation of aramid fibers and fabrics did not significant change after ozone treatment, but the tenacity and elongation of aramid yarns showed significant improvement after ozone treatment, and increased with the increase of ozone treatment time; the ball bursting load and penetration displacement had a slight increase as well after ozone treatment. Therefore, ozone treatment could be one method to improve the surface property of the aramid fiber.
Czasopismo
Rocznik
Tom
Strony
164--169
Opis fizyczny
Bibliogr. 15 poz.
Twórcy
autor
- Department of Textile Material Engineering, Technical University of Liberec, Liberec, Czech Republic
autor
- Department of Textile Material Engineering, Technical University of Liberec, Liberec, Czech Republic
autor
- Department of Textile Material Engineering, Technical University of Liberec, Liberec, Czech Republic
autor
- Department of Textile Material Engineering, Technical University of Liberec, Liberec, Czech Republic
autor
- Department of Textile Material Engineering, Technical University of Liberec, Liberec, Czech Republic
Bibliografia
- [1] Bazhenov, S., (1997), Dissipation of energy by bulletproof aramid fabric. Journal of Materials Science, 32(15), 4167-4173.
- [2] Fink, J.K., ed. (2014) High Performance Polymers. 2nd ed., William Andrew Inc.: Norwich, 301-316.
- [3] Park, S.J., et al., (2002), Effect of chemical treatment of Kevlar fibers on mechanical interfacial properties of composites. Journal of Colloid and Interface Science, 252(1), 249-255.
- [4] Liu, L., et al., (2008), Ultrasonic treatment of aramid fiber surface and its effect on the interface of aramid/epoxy composites. Applied Surface Science, 254(9), 2594-2599.
- [5] Jia, C.X., et al., (2011), Surface treatment of aramid fiber by air dielectric barrier discharge plasma at atmospheric pressure. Applied Surface Science, 257(9), 4165-4170.
- [6] Watanabe, H., et al., (2000), Surface improvements of aramid fibers by physical treatments. Macromolecular Symposia, 159, 131-141.
- [7] Lin, T.K., et al., (2000), The Effect of chemical treatment on reinforcement/matrix interaction in Kevlar-fiber/ bismaleimide composites. Composites Science and Technology, 60(9), 1873-1878.
- [8] Kim, E.M. and J. Jang, (2010), Surface Modification of Meta-aramid Films by UV/ozone Irradiation. Fibers and Polymers, 11(5), 677-682.
- [9] Bemska, J. and J. Szkudlarek, (2013), Surface Modification of Cotton Fabrics for Sublimation Printing. Autex Research Journal, 13(3), 67-70.
- [10] Kappler, I., R.D. Hund, and C. Cherif, (2014), Surface Modification of Carbon Fibres Using Plasma Technique. Autex Research Journal, 14(1), 34-38.
- [11] Patel, D., et al., (2012), Surface modification of low density polyethylene films by homogeneous catalytic ozonation. Chemical Engineering Research & Design, 90(11), 1800-1806.
- [12] Robin, J.J., (2004), The use of ozone in the synthesis of new polymers and the modification of polymers. New Synthetic Methods (Advances in Polymer Sci), 167, 35-79.
- [13] Li, S., et al., (2014), Surface Modification of Aramid Fibers via Ammonia- Plasma Treatment. Journal of Applied Polymer Science, 131(10).
- [14] Kissa, E., (1996), Wetting and wicking. Textile Research Journal, 66(10), 660-668.
- [15] Washburn, E.W., (1921), The dynamics of capillary flow. Physical Review, 17(3), 273-283.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f37f7f14-3abb-48b3-9d8f-d7d538f7278e