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http://dx.doi.org/10.12772/TSE.2018.55.270

Evaluation of Weatherability and Degradation Behavior of Polyester Fabrics for Air Leisure Sports during Winter Season Outdoor Exposure  

Jang, Yeonju (Industry Convergence Technology Center, Convergence Technology Division, Korea Conformity Laboratories)
Park, Jiyoung (Industry Convergence Technology Center, Convergence Technology Division, Korea Conformity Laboratories)
Kim, Byung-Soon (Force Support System Research Center,Defence Agency for Technology and Quality)
Lee, Jung-Soon (Department of Clothing and Textiles, Chungnam National University)
Publication Information
Textile Science and Engineering / v.55, no.4, 2018 , pp. 270-279 More about this Journal
Abstract
The purpose of this study was to evaluate the suitability of a high-strength polyester fabric as a material for air leisure sports, by comparing its physical properties with those of commercially available nylon fabric. In addition, the weatherability during the winter season outdoor exposure test was compared, for evaluation in an actual operating environment, and the degradation behavior after outdoor exposure was examined. The tensile strength, elongation, and tear strength of the polyester fabric having a ripstop structure were found to be sufficient to substitute nylon fabric, which has been used for air leisure sports. Furthermore, the weather resistance test by outdoor exposure indicated that the polyester has excellent weatherability, compared with that of nylon. Compared with that in outdoor weathering, the accelerated weathering of nylon and polyester fabrics leads to a more rapid decrease in the elongation and tensile strength. SEM, spectrophotometry, FT-IR, XRD, and TG analyses showed that the polyester was less degraded than the nylon fabric.
Keywords
polyester fabrics; air leisure sports; weatherability; winter season; outdoor exposure; accelerated weathering; degradation;
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  • Reference
1 L. F. E. Jacques, "Accelerated and Outdoor/Natural Exposure Testing of Coatings", Prog. Polym. Sci., 2000, 25, 1337-1362.   DOI
2 I. Park, "Understanding of Weathering Test", LG Polym. J., 2015, Spring, 11-16.
3 M. Ikisawa, A. Nakano, S. Igari, and H. Terashima, “Outdoor Exposure Tests of Photovoltaic Modules in Japan and Overseas”, Renew. Energy, 1998, 14, 95-100.   DOI
4 Q-Lab Corporation, "Polymer Degradation and Stability", Technical Bulletin LL-9025, Q-Lab Corporation, Westlake, 2011, pp.1-8.
5 Y. Azuma, H. Takeda, S. Watanabe, and H. Nakatani, "Outdoor and Accelerated Weathering Tests for Polypropylene and Polypropylene/talc Composites: A Comparative Study of Their Weathering Behavior", Polym. Degrad. Stab., 2009, 94, 2267-2274.   DOI
6 P. Gijsman, J. Hennekens, and K. Janssen, "Comparison of UV Degradation Chemistry in Accelerated (xenon) Aging Tests and Outdoor Tests (II)", Polym. Degrad. Stab., 1994, 46, 63-74.   DOI
7 "Textiles-Tensile Properties of Fabrics-Determination of Maximum Force and Elongation at Maximum Force the Grab Method", Korean Agency for Technology and Standards, KS K 0520 (2015).
8 "Textiles-Tear Properties of Fabrics-Part 1: Determination of Tear Force Using Ballistic Pendulum Method(Elmendorf)", Korean Agency for Technology and Standards, KS K ISO 13937-1 (2015).
9 "Textiles-Tests for Colour Fastness-Part B02: Colour Fastness to Artificial Light : Xenon arc Fading Lamp Test", Korean Agency for Technology and Standards, KS K ISO 105-B02 (2015).
10 "Calculation of Colour Differences for Textiles", Korean Agency for Technology and Standards, KS K 0205 (2008).
11 "Cloth, Parachute, Nylon-Rip Stop and Twill Weave", US Military Specification, MIL-C-7020H (1992).
12 W.-Y. Jung and J.-I. Weon, “Characterization of Thermal Degradation of Polyamide 66 Composite: Relationship between Life Time Prediction and Activation Energy”, Polym.(Korea), 2012, 36, 712-720.
13 S. Hong, B. Kim, Y. Jeon, and J.-S. Lee, "A Study on the Improved Lightfastness Test Method for Military Textile Products", Text. Coloration Finish., 2015, 27, 288-300.   DOI
14 N. K. Pramanik, M. S. Alam, and R. K. Khandal, "Electron Beam Irradiation of Nylon 66: Characterization by IR Spectroscopy and Viscosity Studies", Int. J. Innov. Res. Sci. Eng. Technol., 2015, 4, 18547-18555.   DOI
15 S. Dasgupta, W. B. Hammond, and W. A. Goddard, "Crystal Structures and Properties of Nylon Polymers from Theory", J. Am. Chem. Soc., 1996, 118, 12291-12301.   DOI
16 A. Linggawati, A. W. Mohammad, and Z. Ghazali, "Effect of Electron Beam Irradiation on Morphology and Sieving Characteristics of Nylon-66 Membranes", Eur. Polym. J., 2009, 45, 2797-2804.   DOI
17 E. Guido, J. Alongi, C. Colleoni, A. D. Blasio, F. Carosio, M. Verelst, G. Malucelli, and G. Rosace, "Thermal Stability and Flame Retardancy of Polyester Fabrics Sol-gel Treated in the Presence of Boehmite Nanoparticles", Polym. Degrad. Stab., 2013, 98, 1609-1616.   DOI
18 Y. Cho, M. Shim, and S. Kim, "Thermal Degradation Kinetics of PE by the Kissinger Equation", Mater. Chem. Phys., 1998, 52, 94-97.   DOI
19 M. Lee and S. Hwang, "Relationship between Flow and Participation Degree of Ground, Water, Air Leisure Sportsbased Tourism Activities", The Journal of the Korea Contents Association, 2013, 13, 488-497.   DOI
20 J. Park, G. Sim, Y. Sung, and M. Kim, “A Study of Aviation Leisure Sport Demand Creation Strategy”, The Korean Journal of Air & Space Law and Policy, 2015, 30, 181-206.
21 D. Uttam, "Active Sportwear Fabrics", Int. J. IT, Eng. Appl. Sci. Res., 2013, 2, 34-40.
22 https://healthfully.com/materials-used-make-parachute-canopies-6326950.html
23 R. Houtman and M. Orpana, "A Review of Degradation of Nylon 6.6 as a Result of Exposure to Environmental Conditions", Rev. Prog. Color., 2003, 33, 93-107.
24 J. H. Choi and J. H. Lim, "Development Trends of Textile Materials for Sailing Cloth, Parachute and Paraglider", KIC News, 2014, 17, 39-47.
25 P. Brennan and C. Fedor, "Sunlight, UV, and Accelerated Weathering", Technical Bulletin LU-0822, The Q-Panel Lab Products, Cleveland, 1994, pp.1-8.
26 A. Temiz, U. C. Yildiz, I. Aydin, M. Eikenes, G. Alfredsen, and G. Colakoglu, "Surface Roughness and Color Characteristics of Wood Treated with Preservatives after Accelerated Weathering Test", Appl. Surf. Sci., 2005, 250, 35-42.   DOI