References
- Berglund, L. G., & Cunningham, D. J. (1986). Parameters of human discomfort in warm environments. Proceedings of the ASHRAE Transactions, Annual Conference, USA, 92 (2B), 732-746.
- Dawes, V. H., & Owen, J. D. (1971). The assessment of fabric handle. Part 1: Stiffness and liveliness. Journal of the Textile Institute, 62(5), 233-244.
- Fukazawa, T., & Havenith, G. (2009). Differences in comfort perception in relation to local and whole body skin wettedness. European Journal of Applied Physiology, 106(1), 15-24. doi:10.1007/s00421-009-0983-z
- Gagge, A. P., Stolwijk, J. A. J., & Saltin, B. (1969). Comfort and thermal sensations and associated physiological responses during exercise at various ambient temperatures. Environmental Research, 2(3), 209-229. doi:10.1016/0013-9351(69)90037-1
- Gwosdow, A. R., Stevens, J. C., Berglund, L. G., & Stolwijk, J. A. J. (1986), Skin friction and fabric sensations in neutral and warm environments. Textile Research Journal, 56 (9), 574-580. doi:10.1177/004051758605600909
- Hong, K. H. (2014). Preparation of rayon filament based woven fabric and PCM treatment for developing cool touch summer clothing material. Fashion & Textile Research Journal, 16(2), 326-332. doi:10.5805/SFTI.2014.16.2.326
- Jeon, E., Yoo, S., & Kim, E. (2010). Evaluation of moisture management properties and moisture perception of highperformance shirts fabrics. Journal of Korean Society Living Environment System, 17(3), 302-307.
- Jeong, J. R., & Kim, H. E. (2009). Evaluation of the wear comfort of outdoorwear by skin wettedness analyses. Journal of the Korean Society of Clothing Industry, 11(6), 947-952.
- Kang, N., & Na, Y. (2010). Physiological responses and sub jective sensation of human body wearing cool mapsi in air-conditioning environment. Korean Journal of The Science of Emotion & Sensibility, 13(2), 359-370.
- Kawabata, S., & Akagi, Y. (1977). Relation between thermal feeling and thermal absorption property of clothing fabric. Sen'i Kikai Gakkaishi (Journal of the Textile Machinery Society of Japan), 30(1), T13-T22. doi:10.4188/transjtmsj.30.T13
- Kim, H. A., Woo, J. Y., & Kim, S. J. (2014). The physical property of PET coolness knitted fabric for high emotional garment. Textile Coloration and Finishing, 26(2), 114-123. doi:10.5764/TCF.2014.26.2.114
- Kim, S., & Hong, K. (2012). Engineering design process of tight-fit sportswear using 3D information of dermatomes and skin deformation in dynamic posture. Korean Journal of Human Ecology, 21(3), 551-565. doi:10.5934/KJHE.2012.21.2.551
-
Korea Global Atmosphere Watch Center. (2017, June 2). <2017년 5월 기상특성> 5월 기온 4년 연속 최고 1위 경신 [
Top-ranked May temperature updates over the past four years]. Climate Information Portal. Retrieved June 16, 2017, from http://www.climate.go.kr/home//n_search/search_view.html - Kwon, E. S., & Lee, M. S. (2014). A study on clothing purchasing behaviors and design preference of summer clothes using cooling textiles. Journal of the Korea Fashion & Costume Design Association, 16(2), 55-70.
- Lee, B. S., Nam, S. I., Song, J. W., & Rho, Y. H. (2012). 냉감/발열(보온) 기능성 섬유소재 기술 개발 동향 [Trend in technology development of cool/warm (thermal) touching functional fiber]. Fiber Technology and Industry, 16(2), 77-88.
- Li, Y. (2001). The science of clothing comfort. Textile Progress, 31(1-2), 1-135. doi:10.1080/00405160108688951
- Sato, M., & Chu, M. S. (2016). End-use properties of coolness fabric for inner wear in Korea and Japan. Journal of the Korean Society of Design Culture, 22(4), 329-337. doi:10.18208/ksdc.2016.22.4.329
- Shon, S. K. (2015). 냉감기능성 섬유기술 개발 동향 [Development trend of functional fiber technology]. Fiber Technology and Industry, 19(2), 142-151.
- Tamura, T. (1994). 기초피복위생학 [Basic Clothing Hygienics] (E. Kim & S. J. Park, Trans.). Seoul: Kyungchunsa. (Original work published 1985)
- Yang, J. S., Park, H. S., & Jeon, Y. M. (2015). 온감/냉감 의류 제품의 기능성 평가법 동향 [Functional evaluation method trend of warm/cool feeling apparel products]. Fiber Technology and Industry, 19(4), 262-270.
- Ziegert, B., & Keil, G. (1988). Stretch fabric interaction with action wearables: Defining a body contouring pattern system. Clothing and Textiles Research Journal, 6(4), 54-64. doi:10.1177/0887302X8800600408