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Fabric Selection for the Reference Clothing Destined for Ergonomics Test of Protective Clothing-Sensorial Comfort Point of View

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The main purpose of this study is the selection of a proper fabric for the reference clothing for ergonomic tests of protective clothing. For research, seven fabric of different raw material content and different structure were chosen. We studied the handle of fabrics produced from blend of polyester/cotton and polyester/Tencel, which were designated by letters from A to G. The assessment of handle of the fabric was performed based on the mechanical properties of fabrics using Kawabata evaluation system (KES-system). It was proven that one of the tested fabrics (F) made of polyester and cotton fibers (85% PES / 15% cotton) with the reinforced twill weave is characterized by the highest total hand value (THV).The high THV results from the low value of koshi (stiffness) and the highest value of numeri (smoothness) and fukurami (fullness). However, in terms of physiological comfort, the lower value of fukurami is more preferred. It turned out that the fabric with the higher value of fukurami (including fabric F) is characterized by the lower air permeability and higher water vapor resistance. At the end, we decided that the reference clothing will be made of cotton/polyester fabric G with the lowest mass per square meter because of the very good physiological comfort parameters and the satisfactory sensorial comfort parameters.
Rocznik
Strony
303--312
Opis fizyczny
Bibliogr. 29 poz.
Twórcy
  • Department of Personal Protective Equipment, Central Institute for Labour Protection - National Research Institute, 90-133 Lodz, 48 Wierzbowa Str., Poland, grbar@ciop.lodz.pl
autor
  • Department of Personal Protective Equipment, Central Institute for Labour Protection - National Research Institute, Lodz, Poland
  • Faculty of Material Technologies and Textile Design, Lodz University of Technology, Lodz, Poland
  • Faculty of Material Technologies and Textile Design, Lodz University of Technology, Lodz, Poland
autor
  • Faculty of Material Technologies and Textile Design, Lodz University of Technology, Lodz, Poland
Bibliografia
  • [1] Song, G. (Ed.). (2011). Improving comfort in clothing. Woodhead Publishing (Cambridge).
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  • [3] Sajjadi, A., Sheikhzadeh, M., Rikhtehgaran, R., et al. (2015). Prediction of fabric handle value using ordinal regression model. The Journal of the Textile Institute 106(11), 1161-1172.
  • [4] Mäkinen, M., Meinander, H., Luible, C., et al. (2005). Influence of physical parameters on fabric hand. Proceedings of the HAPTEX’05 Workshop on Haptic and Tactile Perception of Deformable Objects (Hanover).
  • [5] Behery, M. (2005). Effect of mechanical and physical properties on fabric hand. Woodhead Publishing Limited (Cambridge).
  • [6] Özcelik, G., Özdil, N., Süpüren, G. (2012). Sensorial comfort of textile materials. December 30, 2015. http://www.intechopen.com/books/woven-fabrics/sensorialcomfort-of-textile-materials
  • [7] Qing Chen, Xuhong Miao, Haiwen Mao, et al. (2016). The comfort properties of two differential-shrinkage polyester warp knitted fabrics. Autex Research Journal, 16(2), 90-99.
  • [8] Behera, B. (2007). Comfort and handle behaviour of linen blended fabrics. Autex Research Journal, 7(1), 33-47.
  • [9] Hunter, L., Kavabata, S., Gee, E., et al. (1982). The effect of wool fiber diameter and crimp on objectively measured handle of wool fabrics. Proc. of Second Australia - Japan Bilaterial Sci. and Tech. Symp., Kyoto, Text. Mach. Soc., Japan.
  • [10] Jong, S., Mahar, T., Dhingra, R., et al. (1985). The objective specification of mechanical properties of woven wool and wool blended fabrics. Proc. of 5th Int. Wool Text. Res. Conf., Tokyo.
  • [11] Matsudaria, M., Tan, Y. (1993). The effect of fiber cross sectional shape on fabric mechanical properties and handle. The Journal of the Textile Institute, 84(3), 376-386.
  • [12] Shanmugasundaram O. (2008). Objective measurement techniques for fabrics. The Asian Textile Journal, 17, 63-67.
  • [13] Ishtiaque, S., Das, A., Kundu, A. (2014). Ring frame process parameters and fabric comfort. Part I - low-stress mechanical properties of fabrics. The Journal of the Textile Institute, 105(3), 348-355.
  • [14] Matsudaira, M., Nakano, K., Yamazaki, Y., et al. (2009). Effects of weave density, yarn twist and yarn count on fabric handle of polyester woven fabrics by objective evaluation method. The Journal of the Textile Institute, 100(3), 265-274.
  • [15] Behera, B., Ishtiaque, S., Chand, S. (1997). Comfort properties of fabrics woven from ring-, rotor- and frictionspun yarns. The Journal of the Textile Institute, 88(3), 255-264.
  • [16] Barker, R. (2002). From fabric hand to thermal comfort: the evolving role of objective measurements in explaining human comfort response to textiles. International Journal of Clothing Science and Technology, 14(3/4), 181-200.
  • [17] Bensaid, S., Osselin, J., Schacher, L., et al. (2006). The effect of pattern construction on the tactile feeling evaluated through sensory analysis. The Journal of the Textile Institute, 97(2), 137-145.
  • [18] Frydrych, I., Dziworska, G., Cieślińska. A. (2000). Mechanical fabric properties influencing the drape and handle. International Journal of Clothing Science and Technology, 12(3), 171-183.
  • [19] Matsuo, T., Okamoto, F., Akiyama, R., et al. (2000). A study of the relationships between the surface properties, hand, and structure of shingosen fabrics. The Journal of the Textile Institute, 91(1), 78-91.
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  • [23] Mamalis, P, Andreopoulos, A, Spyrellis, N. (2001). The effect of a durable flame-retardant finishing on the mechanical properties of cotton knitted fabrics. International Journal of Clothing Science and Technology, 13(2), 132-144.
  • [24] Atsushi Kawamura, Chunhong Zhu, Julie Peiffer et al. (2016). Relationship between the physical properties and hand of jean fabric. Autex Research Journal, 16 (3), 138-145.
  • [25] Kawabata, S. (1980). The standardization and analysis of hand evaluation. 2nd ed. Textile Machinery Society of Japan (Osaka).
  • [26] Kawabata, S, Niwa, M. (1991). Objective measurement of fabric mechanical property and quality: Its application to textile and clothing manufacturing. International Journal of Clothing Science and Technology, 3(1), 7-18.
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  • [28] Yazdi, A., Shahbazi., Z. (2006). Evaluation of the bending properties of viscose/polyester woven fabrics. Fibres and Textiles in Eastern Europe, 14, 50-54.
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Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-01c8fa67-a66d-4781-9744-f1ef8ff4f029
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