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Abstrakty
In this study, the effect of UV irradiation on mechanical properties of both natural and synthetic fabrics is investigated. Also the UV degradation of fabrics before and after TiO2 padding is studied. Cotton is used as natural fabric, and polyester, polypropylene, and polyamide were used as synthetic fabrics. After deposition with TiO2, prepared samples were irradiated by different dosage of UV light and the changes in fiber surface and the adhesion of nanoparticles is tested. The scanning electron microscopy, elemental analyses of Ti, and other methods were used. In some cases, the effect of stabilization of nanoparticles on fibers by UV light was realized. Reasons of this stabilization are the surface changes of polymer fibers-increase in surface roughness and oxidation of surface.
Czasopismo
Rocznik
Tom
Strony
370--378
Opis fizyczny
Bibliogr. 25 poz.
Twórcy
autor
- Technical university of Liberec, Liberec, Studentská 2, 461 17, Czech Republic
autor
- Technical university of Liberec, Liberec, Studentská 2, 461 17, Czech Republic
autor
- Young Researchers and Elite Club, Arak Branch, Islamic Azad University, Arak, Iran
autor
- Technical university of Liberec, Liberec, Studentská 2, 461 17, Czech Republic
Bibliografia
- [1] G. Buschle-Diller, S.H. Zeronian, Weathering and Photodegradation of Cellulose. Photochemistry of Lignocellulosic Materials,14(1993)177-189
- [2] D. Saravanan, UV protection textile materials. AUTEX Research Journal, 7(2007) 58-62
- [3] M.Pouzar, M.Prušová,T.Cernohorsky,J.Wiener,T. Kratochvil,Analyses of Ti in textile stippled by TiO2 nanoparticle sol using double-pulse LIBS and ED XRF spectrometry, Journal of Applied Spectroscopy, 78(2011)673-679
- [4] M. Průšová, J.Wiener, Application of LIBS method in analyses of carbon and titanium in textile structure, Textile research journal,82(2012) 1092-1098
- [5] J.Wiener, S.Shahidi, M.M.Goba, Laser deposition of TiO2 nanoparticles on glass fabric, Optics & Laser Technology, 45 (2012) 147-153
- [6] Z. Liuxue, L. Peng, S. Zhixing, Photocatalysis anatase thin film coated PAN fibers prepared at low temperature, Materials Chemistry and Physics 98 (2006) 111-115
- [7] A. Nazari , M. Montazer , A. Rashidi , M. Yazdanshenas , M. Anary-Abbasinejad, Nano TiO2 photo-catalyst and sodium hypophosphite for cross-linking cotton with poly carboxylic acids under UV and high temperature, Applied Catalysis A: General 371 (2009) 10-16
- [8] K. Qi, X. Wang and J. H. Xin, Photocatalytic self-cleaning textiles based on nanocrystalline titanium dioxide, Textile Research Journal 81(1) 101-110
- [9] T. Sakai , Y. Kuniyoshi , W. Aoki , S.Ezoe , T. Endo , Y. Hoshi, High-rate deposition of photocatalytic TiO2 films by oxygen plasma assist reactive evaporation method, Thin Solid Films 516 (2008) 5860-5863
- [10] D. Mihailović , Z. Šaponjić , M. Radoičić , T. Radetić , P. Jovančić, J. Nedeljković ,M. Radetić , Functionalization of polyester fabrics with alginates and TiO2 nanoparticles, Carbohydrate Polymers 79 (2010) 526-532
- [11] W. A. Daoud , J. H. Xin, Y.H. Zhang, Surface functionalization of cellulose fibers with titanium dioxide nanoparticles and their combined bactericidal activities, Surface Science 599 (2005) 69-75
- [12] Y. L. Lam, C. W. Kan, and C. W. M. Yuen, Effect of Concentration of Titanium Dioxide Acting as Catalyst or Co-catalyst on the Wrinkle-resistant Finishing of Cotton Fabric, Fibers and Polymers, 11(2010) 551-558
- [13] Y. L. Lam, C. W. Kan, C. W. M. Yuen, and C. H. Au, Fabric Objective Measurement of the Plasma-treated Cotton Fabric Subjected to Wrinkle-resistant Finishing with BTCA and TiO2 System, Fibers and Polymers, 12 (2011) 626-634
- [14] C. Yang, G. L. Liang, K. M. Xu, P. Gao, B. Xu, Bactericidal functionalization of wrinkle-free fabrics via covalently bonding TiO-Ag nanoconjugates J Mater Sci 44 (2009)1894-1901
- [15] Z. Liuxue , W. Xiulian , L. Peng , S. Zhixing, Low temperature deposition of TiO2 thin films on polyvinylalcohol fibers with photocatalytical and antibacterial activities, Applied Surface Science 254 (2008) 1771-1774
- [16] I. K. Konstantinou and T. A. Albanis, “TiO2-Assisted Photocatalytic Degradation of Azo Dyes in Aqueous Solution: Kinetic and Mechanistic Investigations,” Applied Catalysis B: Environmental, 49(2004) 1-14
- [17] A. Fujishima, K. Hashimoto, T. Watanabe, TiO2 Photocatalysis, Fundamentals and Applications, BKC, Tokyo 1999
- [18] M.Kaneko, I.Okura, Photocatalysis (Scienceand Technology), Kodasha Ltd., Tokyo, 2002, ISBN 4-06-210615-9
- [19] A.Masakazu, Kamat V. Prashant, Environmenttally Benign Photocatalysts. New York: Springer, 2010. ISBN 978-0-387-48441-9
- [20] Lćurković, D. Ljubas, H. Juretić, Photocatalytic decolourization kinetics of diazo dye Congo Red aqueous solution by UV/TiO2 nanoparticles, Reaction Kinetics, Mechanisms and Catalysis 99 (1) (2010) 201-208
- [21] Ling, C.M., Mohamed, A.R., Bhatia, S., Performance of photocatalytic reactors using immobilized TiO2 film for the degradation of phenol and methylene blue dye present in water stream, Chemosphere 57 (2004) 547- 554
- [22] Chládová, A., Wiener, J., Exnar, P., Špaldová, M.: Photocatalytic textiles prepared bysol-gel method, Vlákna a textil, 4 (2011) 9-15
- [23] W.Feng, D. Nansheng and H. Helin, Degradation mechanism of azo dye C. I. reactive red 2 by iron powder reduction and photooxidation in aqueous solutions, Chemosphere, 41 (2000) 1233-1238
- [24] Joanna Grzechulska, Antoni Waldemar Morawski, Photocatalytic decomposition of azo-dye acid black 1 in water over modified titanium dioxide, Applied Catalysis B: Environmental, 36 (2002) 45-51
- [25] Magallón-Cacho, L.; Pérez-Bueno, J.; Meas-Vong, Y.; Stremsdoerfer, G.; Espinoza-Beltrán, F. Weathering and Photodegradation of Cellulose. Surface & Coatings Technology 206 (2011)1410-1415
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-f270b123-3707-495f-992c-34c4fb40bb8b