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Tytuł artykułu

Simulations of Heat Transport Phenomena in a Three-Dimensional Model of Knitted Fabric

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The main goal of the current work is to analyse the three-dimensional approach for modelling knitted fabric structures for future analysis of physical properties and thermal phenomena. The introduced model assumes some simplification of morphology. First, fibres in knitted fabrics are described as monofilaments characterized by isotropic thermal properties. The current form of the considered knitted fabric is determined by morphological properties of the used monofilament and simplification of the stitch shape. This simplification was based on a particular technology for the knitting process that introduces both geometric parameters and physical material properties. Detailed descriptions of heat transfer phenomena can also be considered. A sensitivity analysis of the temperature field with respect to selected structural parameters was also performed.
Rocznik
Strony
128--137
Opis fizyczny
Bibliogr. 35 poz.
Twórcy
  • Department of Material and Commodity Sciences and Textile Metrology, Faculty of Material Technologies and Textile Design, Lodz University of Technology, Zeromskiego St 116, 90-924 Lodz, Poland
autor
  • Department of Technical Mechanics and Informatics, Faculty of Material Technologies and Textile Design, Lodz University of Technology, Zeromskiego St 116, 90-924 Lodz, Poland
  • Department of Material and Commodity Sciences and Textile Metrology, Faculty of Material Technologies and Textile Design, Lodz University of Technology, Zeromskiego St 116, 90-924 Lodz, Poland
Bibliografia
  • [1] LI, Y.: The science of clothing comfort; Textile Progress 2001; 15
  • [2] LI, Y., ZHU, Q.: A Model of coupled liquid moisture and heat transfer in porous textiles with consideration of gravity; Numerical Heat Transfer 2003; 43; 501
  • [3] LI, Y., Zhu, Q.: A Model of Heat and Moisture Transfer in Porous Textiles with Phase Change Materials; Textile Research Journal 2004; 74; 447
  • [4] LI, Y., LUO, Z.: An improved mathematical simulation of the coupled diffusion of moisture and heat in wool fabric; Textile Research Journal 1999; 69; 760
  • [5] LI, Y., ZHU, Q., YEUNG, K.W.: Influence of thickness and porosity on coupled heat and liquid moisture transfer in porous textiles; Textile Research Journal 2002; 72; 435
  • [6] LI, Y., ZHU, Q.: Simultaneous heat and moisture transfer with moisture sorption, condensation, and capillary liquid diffusion in porous textiles; Textile Research Journal 2003; 73; 515
  • [7] FAN, J., LUO, Z., LI, Y.: Heat and moisture transfer with sorption and condensation in porous clothing assemblies and numerical simulation; International Journal of Heat and Mass Transfer 2000; 43; 2989
  • [8] LONG, F., ZHU, Y.: Modelling Heat-Moisture Transport through Firefighters’ Protective Fabrics from an Impinging Flame Jet by Simulating the Drying Process Zhou; Fibres & textiles in Eastern Europe 2013; 21; 85
  • [9] PAN, N., GIBSON, P.: Thermal and moisture transport in fibrous materials: Woodhead Publishing in Textiles, Cambridge, England, 2006
  • [10] FAN, J., CHENG, X-Y.: Heat and moisture transfer with sorption and phase change through clothing assemblies; Textile Research Journal 2005; 75; 187
  • [11] WANG, Z., LI, Y., KOWK, Y.L., YEUNG, C.Y.: Mathematical simulation of the perception of fabric thermal and moisture sensations; Textile Research Journal 2002; 72; 327
  • [12] HAGHI, A.K.: Simultaneous moisture and heat transfer in porous systems; Journal of computational and Applied Mechanics 2001; 2 (2); 195
  • [13] KORYCKI, R.: Sensitivity oriented shape optimization of textile composites during coupled heat and mass transport; International Journal of Heat and Mass Transfer 2010; 53; 2385
  • [14] KORYCKI, R., WIEZOWSKA, A.: Modelling of the temperature field within knitted fur fabrics; Fibres and Textiles in Eastern Europe 2011; 84 nr 1; 55
  • [15] WAWSZCZAK, W.: Experimental investigation of a modern high heat exchanger; Proc. of the 1994 Engineering Systems Design and Analysis Conference, New York 1994; 8; 679
  • [16] GOLANSKI, D., TERADA, K., KIKUCHI, N.: Macro and micro scale modeling of thermal residual stresses in metal matrix composite surface layers by the homogenization method; Computational Mechanics 1997; 19; 188
  • [17] LEAF, G., GLASKIN A.V.: The Geometry of a plane knitted Loop; Journal of the Textile Institute 1955; 45; 587
  • [18] FLETCHER, H.M., ROBERTS, S.H.: The Geometry and Properties of Two-bar Tricot Fabrics; Textile Research Journal 1956; 26; 889
  • [19] FLETCHER, H.M., ROBERTS, S.H.: The Geometry and Properties of Two-bar Raschel Fabrics; Textile Research Journal 1962; 32; 173
  • [20] GROSBERG, P.: The Geometry of Warp-knitted Fabrics; Journal of The Textile Institute 1960; 51; 39
  • [21] GROSBERG, P.: The Geometrical Properties of Simple Warp-knit Fabrics; Journal of The Textile Institute 1964; 55; 18
  • [22] MUNDEN, D., L.: The Geometry and Dimensional Properties of Plain-Knit Fabrics; Journal of The Textile Institute 1959; 50; 448
  • [23] SHANAHAN, W., POSTLE, R.: A Theoretical Analysis of Plane Knitted Structure; Textile Research Journal 1970; 40; 656
  • [24] PINAR, A., KOPIAS, K.: Knitted fabrics pictures computer analysis in the 3D system; AUTEX Research Journal 2009; 9; 109
  • [25] PAVKO-CUDEN, A., HLADNIK, A., SLUGA, F.: Loop Length of Plane Weft Knitted Structure with Elastane, Journal of Engineered Fibers and Fabrics, 2013; 8; 110
  • [26] ZUREK, W., KOPIAS, K.: Struktura płaskich wyrobów włókienniczych, WNT, Warsaw, 1983.
  • [27] GU, PING.: CAD Theory and Application for Textile [M] Beijing: China Textile & Apparel Press 2005; 9.
  • [28] GOKTEPE, S.C., HARLOCK, A.: 3D Loop Model for Visual Simulation of Warp-knitted Structures; The Journal of The Textile Institute 2002; 93; 11
  • [29] RENKENS, W., KYOSEV, Y.: 3D Simulation of Warp Knitted Structures - New Chance For Researchers and Educators, 7Th International Conference TEXSCI 2010, September 6-8 Liberec, Czech Republic
  • [30] HONGLIAN C., MINGQIAO, G., GAOMING, J.: Three–Dimensional Simulation of Warp – knitted Fabric; Fibres & Textiles in Eastern Europe 2009; 17; 66
  • [31] JIANG G., GU, L., CONG, H., MIAO, X., ZHANG, A., GAO, Z.: Geometric Model for Multi-axial Warp-knitted Fabric Based on NURBS; Fibres & Textiles in Eastern Europe 2014; 22; 91
  • [32] ZHANG, L.Z., JIANG, G.M., MIAO, X.H., CONG, H.L.: Three-dimensional Computer Simulation of Warp Knitted Spacer Fabric; Fibres & Textiles in Eastern Europe 2012; 20; 56
  • [33] XU, H.Y., CHEN, N.L., JIANG, J.H., JIN, L.X., WANG, Z.X.: 3D Simulation of Warp Knitted Structures with a New Algorithm Based on NURBS; Fibres & Textiles in Eastern Europe 2015; 23; 57
  • [34] GOKTEPE, O.: Use of Non-Uniform Rational B-Splines for Three Dimensional Computer Simulation of Warp Knitted Structures; Turkish Journal of Engineering and Environmental Sciences 2001; 25; 369
  • [35] SolidWorks Flow Simulation - Technical Reference 2014.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5e791291-1098-4168-98f6-c309bf3cd599
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