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Investigation of Mechanical and Utility Properties of Two-Layer Cotton Woven Fabrics

Autorzy
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of presented work was to design the cotton woven fabrics which ensure thermal resistance higher than standard cotton fabrics of basic weaves. It was done in order to combine the excellent hygienic properties of cotton fibers with thermal insulation. Three variants of two-face cotton woven fabrics of different structure were designed and manufactured. Next, they were measured in the range of their basic structural, mechanical, and comfort-related properties. The results obtained were analyzed in the aspect of properties influencing the utility comfort of user wearing clothing made of the investigated fabrics.
Rocznik
Strony
192--202
Opis fizyczny
Bibliogr. 31 poz.
Twórcy
autor
  • Institute of Architecture of Textiles, Department of Material Technologies and Textile Design, Lodz University of Technology Lodz, Poland
autor
  • Textile Research Institute, Lodz, Poland
Bibliografia
  • [1] Matusiak M.: Thermal Insulation of Woven Fabric for Clothing. Monograph, Works of Textile Research Institute, Special Edition, Lodz 2011, ISBN 978-83-911544-7-2.
  • [2] http://www.kurabo.co.jp/division/yarn/english/spinair/index.html
  • [3] Andrysiak J., Sikorski K., Wilk E., Matusiak M., Investigation of an Innovative “Cotton Hollow” Yarn, FIBRES & TEXTILES in Eastern Europe 2014; 22, 5(107), pp. 33-37.
  • [4] Unal P.G., 3D Woven Fabrics, chapter in: Woven Fabrics edited by Han-Yong Jeon, In -Tech Croatia 2012, ISBN 978-953-51-0607-4, pp. 91-120
  • [5] Chen X., Taylor L.W., Tsai L.J., An Overview on Fabrication of Three-Dimensional Woven Textile Preforms for Composites, Textile Research Journal 2011, Vol. 81, No.9, pp. 932-944
  • [6] Soden J.A., Hill J., Conventional Weaving of Shaped Preforms for Engineering Composites, Composites Part A 1998, Vol.29A, pp.757-762
  • [7] Behera B. K., Hari P. K., Woven textile structure, Theory and applications, The Textile Institute, Woodhead Publishing Limited, Oxford (UK) 2010.
  • [8] Włodarczyk B., Kowalski K., Technology and Properties of Distance Five-layered Double-Weft-Knitted Fabrics with Elastomeric Threads, FIBRES & TEXTILES in Eastern Europe 2014; 22, 1(103), pp. 68-73
  • [9] http://warpknits.vrtxinc.com/product/all-categories/spacerknit-fabric
  • [10] Socha E., Design the cold-protective clothing (in Polish), Institute of the Industrial Design, Works and materials, Item 104, Warsaw 1986.
  • [11] Matusiak M., Sikorski K.; Influence of the Structure of Woven Fabrics on Their Thermal Insulation Properties.FIBRES & TEXTILES in Eastern Europe 2011, Vol. 19, No. 5 (88) pp. 46-53.
  • [12] Hes L., Sluka P., Uvod do komfortu textilii (in Czech), Technical University of Liberec, Liberec 2005.
  • [13] Gupta D, Srivastava A and Kale S. Thermal properties of single and double layer fabric assemblies. Indian Journal of Fibre & Textile Research. 2013;38(4):387-94
  • [14] Zeinab S. Abdel-Rehim, M. M. Saad M. El-Shakankery and I. Hanafy, Textile Fabrics as Thermal Insulators, AUTEX Research Journal, Vol. 6, No 3, September 2006 AUTEX, pp. 148-161
  • [15] Hearle J. W.S., X. Chen, 3D Woven Preforms and Properties for Textile Composites, available in: < http://iccm-central.org/Proceedings/ICCM17proceedings, on November 2017.
  • [16] Chen X., Wang H., Modelling and computer-aided design of 3D hollow woven reinforcement for composites, The Journal of The Textile Institute 2006, 97:1, pp. 79-87
  • [17] Chen X., Taylor L.W., An overview on fabrication of threedimensional woven textile preforms for composites, Textile Research Journal 2011, 81(9), pp. 932-944
  • [18] Kandhavadivu P., Rathinamoorthya R., Surjit R., Moisture and thermal management properties of woven and knitted tri-layer fabrics, Indian Journal of Fibre & Textile Research 2015, Vol. 40, pp 243-249
  • [19] Basal G., Duran D., Mecit D., Ilgaz S., Comfort properties of double layered knitted and woven fabrics, Industria textilă 2009, 60(6), pp. 299-307
  • [20] Unal P.G., Kayseri G.O., Kanat Z.E., The Effect of Different Connections in Double Layered Woven Fabrics on Comfort Properties, Fibers and Polymers 2012, Vol.13, No.2, 258- 263
  • [21] Supure G.,Oglacioglu N., Ozdil N., Marmarali A., Moisture management and thermal absorptivity properties of doubleface knitted fabric, Textile Research Journal 2011, Vol 81, Issue 13, , pp. 1320-1330
  • [22] Kayseri G. Ö., G Özdil N., Mengüç G.S.Tsai L.J., Sensorial Comfort of Textile Materials, chapter in Woven Fabrics edited by Han-Yong Jeon, In -Tech Croatia 2012, , pp. 235-266.
  • [23] Hes, L. New achievements in the area of the objective evaluation of thermal insulation and thermal contact properties of textiles in The 3rd Asian Textile Conference, Vol. II 1995
  • [24] Frydrych I., Dziworska G., Bilska J., Comparative analysis of the thermal insulation properties of fabrics made of natural and man-made cellulose fibres, Fibres and Textiles in Eastern Europe, 2002, Vol. 4(39), pp. 40-44
  • [25] Internal Standard No. 23-204-02/01,“Measurement of the thermal properties by Alambeta device” developed in the Technical University of Liberec
  • [26] Militky J., Matusiak M.: Complex Characterization of Cotton Fabric Termo Physiological Comfort, 3rd International Textile, Clothing & Design Conference, Dubrovnik 2006.
  • [27] Hes L., Doleżal I., Hanzl J., „Neue Methode und Einrichtung zur objektiven Bewertung der Thermokontakten Eigenschaften textiler Flaschengebilde“, Melliand Textilberichte, 679-81,9/1990.
  • [28] Vasile S., Ciesielska-Wróbel I.L., Van Langenhove L., Wrinkle recovery of flax fabrics with embedded superelastic shape memory alloys wires, Fibres & Textiles in Eastern Europe 2012, Vol. 20(4), pp. 56 - 61.
  • [29] Fanger P.O., Thermal comfort, (in Polish), Kostyrko K., Kostyrko A, Arkady, Warsaw 1974.
  • [30] Sun Z., Pan N., Thermal conductivity and moisture diffusion in fibrous materials, chapter in: Thermal and moisture transport in fibrous materials, Edited by Pan N., Gibson P., Woodhead Publishing Limited Cambridge 2006, pp. 225 -270.
  • [31] Jun Li J., Zhang Z., Wang Y., The relationship between air gap sizes and clothing heat transfer performance, The Journal of The Textile Institute, (2013) 104:12, pp.1327-1336.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-3bcc162f-388a-437a-a8ae-343022528104
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