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Heat Storage and Release Characteristics of Ceramic-Imbedded Woven Fabric for Emotional Clothing

Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This study examined the heat storage and release characteristics of ZrC-imbedded woven fabrics by light emission and thermal manikin experiments. The surface temperature of the ZrC-imbedded fabric was higher than that of the regular PET fabric. Furthermore, the Clo values of both the total and torso of the ZrC-imbedded fabric by the thermal manikin experiment were higher than those of the regular PET fabric, which suggests that the heat release is caused by far infrared rays emitted from the ZrC particles imbedded in the yarns as they receive light. This was confirmed by the higher emissivity and emissive power of the ZrC-imbedded fabric. However, the tactile hand of the ZrC-imbedded fabric needs to be improved by adjusting the structural parameters of the fabric and finishing process factors.
Rocznik
Strony
165--172
Opis fizyczny
Bibliogr. 11 poz.
Twórcy
autor
  • Korea Research Institute for Fashion Industry, Daegu, Korea
  • Dept. of Fiber System Engineering, Yeungnam Univ, Gyeongsan, Korea
Bibliografia
  • [1] Bahng, G. W., & Lee, J. D. (2014). Development of heat-generating polyester fiber harnessing catalytic ceramic powder combined with heat-generating super microorganisms. Textile Research Journal, 84(11), 1220-1230.
  • [2] Furata, T., Shimizu, Y. & Kondo, Y. (1996). Evaluating the temperature and humidity characteristics of solar energy absorbing and retaining fabric. Textile Research Journal, 66(3), 123-130.
  • [3] Kim, H. A., & Kim, S. J. (2017). Far-Infrared emission characteristics and wear comfort property of ZrC-Imbedded heat storage knitted fabrics for emotional garments. Autex Research Journal, 17(2), 142-151.
  • [4] Kuo, C. F. J., Fan, C. C., Su, T. L., Chen, S. H., & Lan, W. L. (2016). Nano composite fiber process optimization for polypropylene with antibacterial and far-infrared ray emission properties. Textile Research Journal, 86(16), 1677-1687.
  • [5] Lee, E., Han, S., Lee, K. H., Lee, J., & Cho, G. (2017). Thermal properties of combat uniforms treated with microencapsulated octadecane and change in clothing microclimate via thermal manikin. The Journal of The Textile Institute, 1-11.
  • [6] Lin, C. A., An, T. C., & Hsu, Y. H. (2007). Study on the far infrared ray emission property and adsorption performance of bamboo charcoal/polyvinyl alcohol fiber. Polymer-Plastics Technology and Engineering, 46(11), 1073-1078.
  • [7] Lin, C. M, & Chang C. W. (2008). Production of thermal insulation composites containing bamboo charcoal. Textile Research Journal, 78(7), 555-560.
  • [8] Lin, J. H., Huang, C. L., Lin, Z. I., & Lou, C. W. (2016). Far-infrared emissive polypropylene/wood flour wood plastic composites: Manufacturing technique and property evaluations. Journal of Composite Materials, 50(15), 2099-2109.
  • [9] Lin, J. H., Jhang, J. C., Lin, T. A., Huang, S. Y., Chen, Y. S., & Lou, C. W. (2017). Manufacturing techniques, mechanical properties, far infrared emissivity, and electromagnetic shielding effectiveness of stainless steel/polyester/bamboo charcoal knits. Fibers and Polymers, 18(3), 597-604.
  • [10] Negishi, N. & Kikuchi, M. (1988). Infrared ray effects in biological systems. Ceramics Japan, 23(4), 335-339.
  • [11] Shim, M. H., Park, C. H & Shim, H. S. (2009). Effect of ceramics on the physical and thermo-physiological performance of warm-up suit. Textile Research Journal, 79(17), 1557-1564.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5b5f8a66-c95f-4986-9436-2ec71f8c3714
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