Investigation of Moisture Transport Properties of Knitted Materials Intended for Warm Underwear

Baltušnikaite, J; Abraitienė, A; Stygienė, L; Krauledas, S; Rubežienė, V; Varnaitė-Žuravliova, S

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Tytuł artykułu

Investigation of Moisture Transport Properties of Knitted Materials Intended for Warm Underwear

Autorzy

Baltušnikaite J , Abraitienė A , Stygienė L , Krauledas S , Rubežienė V , Varnaitė-Žuravliova S

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Warianty tytułu

Badanie transportu wilgoci w materiałach dziewiarskich przeznaczonych na ciepłą bieliznę

Języki publikacji

Abstrakty

The main functional purpose of knitted materials intended for warm underwear is to vouchsafe the comfort property while composing and maintaining a satisfactory microclimate on the human skin. This research seeks to investigate the liquid moisture management properties of knitted fabrics of different fibre blends of different ratios suitable for the base layer of underwear. Two groups of fabrics were knitted in combined and plain and plated single jersey with laid-in yarn patterns, and their moisture management properties were assessed using a moisture management tester. The usage of fleecy yarn in knitted fabric structure has improved the moisture management properties of fabrics in comparison to combined pattern fabrics. Out of ten fabrics studied, three were classified as moisture management fabrics that are suitable for the base layer of underwear.

Głównym funkcyjnym celem dzianin przeznaczonych na ciepłą bieliznę jest zabezpieczenie komfortu poprzez tworzenie i utrzymanie odpowiedniego mikroklimatu w bezpośrednim sąsiedztwie ludzkiej skóry. Prowadzone badania miały na celu określenie zadowalających warunków przepływu wilgoci w dzianinach wytworzonych mieszanek przędz o różnych składach surowcowych i różnych sposobów dziania. Do badań stosowano specjalne urządzenie testujące przepływ wilgoci. Z 10 różnych dzianin wytypowano 3, które najbardziej nadaja się na zastosowanie w podstawowej warstwie dzianej bielizny.

Słowa kluczowe

comfort properties moisture transport knitted underwear

transport wilgoci materiały dziewiarskie mikroklimat tkanin przepływ wilgoci w dzianinach

Wydawca

Sieć Badawcza Łukasiewicz - Łódzki Instytut Technologiczny

Czasopismo

Fibres & Textiles in Eastern Europe

Rocznik

2014

Tom

Vol. 22, no. 4 (106)

Strony

93--100

Opis fizyczny

Bibliogr. 32 poz., rys., tab.

Twórcy

autor

Baltušnikaite J

Lithuania, Kaunas, Textile Institute, SRI Center for Physical Sciences and Technology

autor

Abraitienė A

Lithuania, Kaunas, Textile Institute, SRI Center for Physical Sciences and Technology

autor

Stygienė L

Lithuania, Kaunas, Textile Institute, SRI Center for Physical Sciences and Technology

autor

Krauledas S

Lithuania, Kaunas, Textile Institute, SRI Center for Physical Sciences and Technology

autor

Rubežienė V

Lithuania, Kaunas, Textile Institute, SRI Center for Physical Sciences and Technology

autor

Varnaitė-Žuravliova S

Lithuania, Kaunas, Textile Institute, SRI Center for Physical Sciences and Technology

Bibliografia

1. Wu HY, Zhang WY, Li J. Study on Improving the Thermal-Wet Comfort of Clothing during Exercise with an Assembly of Fabrics. Fibres & Textiles in Eastern Europe 2009; 17, 4, 75: 46-51.
2. Umbach KH. Aspects of clothing physiology in the development of sportswear. Knitting Technique 1993; 15, 3: 165-169.
3. Cao H, Branson DH, Peksoz S, Nam J, Farr CA. Fabric selection for a liquid cooling garment. Textile Research Journal 2006; 76: 587–595.
4. Su Kyoung An, Hae Jin Gam, Huantian Cao. Evaluating Thermal and Sensorial Performance of Organic Cotton, Bamboo- Blended, and Soybean-Blended Fabrics. Clothing and Textiles Research Journal 2013; 31: 157-166.
5. Männer J, Schuster KCh, Suchomel F, Gürtler A, Firgo H. Higher performance with natural intelligence. Lenzinger Berichte 2004; 83: 99-110.
6. Hu J, Li Y, Yeung KW, Wong ASW, Xu W. Moisture management tester: A method to characterize fabric liquid moisture management properties. Textile Research Journal 2005; 75: 57–62.
7. Zhuang Q, Harlock SC, Brook DB. Transfer wicking mechanisms used as undergarment for outdoor activities. Textile Research Journal 2002; 72: 727–734.
8. Shinjung Yoo, Barker RL. Comfort Properties of Heat-Resistant Protective Workwear in Varying Conditions of Physical Activity and Environment. Part I: Thermophysical and Sensorial Properties of Fabrics. Textile Research Journal 2005; 75: 523-530.
9. Das B, Das A, Kothari VK, Fanguiero R, Araujo M. Moisture transmission through textiles, Part I: processes involved in moisture transmission and the factors at play. AUTEX Research Journal 2007; 2, 7: 100-110.
10. Patnaik A, Rengasamy RS, Kothari VK, Ghosh A. Wetting and wicking in fibrous material. Textile Prog. 2006; 38, 1: 1–105.
11. Umbach KH. Bekleidungsphysiologische Gesichtspunkte zur Entwiclung von Sportkleidung. Wirkerei und Strickerei Technik 1993; 43, 2: 108-114.
12. Wilbik-Halgas B, Danych R, Wiecek B, Kowalski K. Air and Water Vapour Permebility in Double-Layerd Knitted Fabrics with Different Raw Materials. Fibres & Textiles in Eastern Europe 2006; 14, 3, 57: 77–80.
13. Liya Zhou, Xunwei Feng, Yi Li; Influences of the Fibre Hygroscopicity of Connecting Yarn on the Liquid Water Transfer Property of Knitted Double- Layer Fabric. Fibres & Textiles in Eastern Europe 2010; 18, 6, 83: 72-75.
14. Kowalski K, Janicka J, Massalska-Lipinska T, Nyka M. Impact of Raw Material Combinations on the Biophysical Parameters and Underwear Microclimate of Two-Layer Knitted Materials. Fibres & Textiles in Eastern Europe 2010; 18, 5, 82: 64–70.
15. Shishoo R. Textiles in sport. Cambridge: The Textile Institute, CRC Press, Woodhead, 2005.
16. Zhang Y, Wang H, Chen JY. Capillary effect of hydrophobic polyester fiber bundles with noncircular cross section. Journal of Applied Polymer Science 2006; 102, 2: 1405-1412.
17. Hasan MMB, Calvimontes A, Synytska A, Dutschk V. Effects of Topographic Structure on Wettability of Differently Woven Fabrics. Texttile Research Journal 2008; 78: 11.
18. Bagherzadeh R, Gorji M, Latifi M, Payvandy P, Kong LX. Evolution of Moisture Management Behavior of High-wicking 3D Warp Knitted Spacer Fabrics. Fibers and Polymers 2012; 13, 4: 529-534.
19. Dionne EP, Haryslak Ch, Lie WK, Rock M, Vainer G. Plaited double-knit fabric with moisture management and improved thermal properties. Patent EP 1176242 A3.
20. Fangueiro R, Filgueiras A, Soutinho F, Meidi X. Wicking behavior and drying capability of functional knitted fabrics. Textile Research Journal 2010; 18, 1–9,
21. Oğlakcıoğlu N, Marmaral A. Thermal comfort properties of some knitted structures. Fibres & Textiles in Eastern Europe 2007; 15: 94–96.
22. Hill R. Fibers & Fabrics in Sports. Textiles 1985; 14, 2: 30-36. 23. Arunangshu Mukhopadhyay, Vinay Kumar Midha. A Review on Designing the Waterproof Breathable Fabrics Part I: Fundamental Principles and Designing Aspects of Breathable Fabrics. Journal of Industrial Textiles 2008; 37: 225-262.
23. Arunangshu Mukhopadhyay, Vinay Kumar Midha. A Review on Designing the Waterproof Breathable Fabrics Part I: Fundamental Principles and Designing Aspects of Breathable Fabrics. Journal of Industrial Textiles 2008; 37: 225-262.
24. Wardiningsih W, Troynikov O. Influence of cover factor on liquid moisture transport performance of bamboo knitted fabrics. Journal of The Textile Institute 2012; 103, 1: 89-98.
25. Troynikov O, Wardiningsih W. Moisture management properties of wool/ polyester and wool/bamboo knitted fabrics for the sportswear base layer. Textile Research Journal 2011; 81: 621-631.
26. Bivainytė A, Mikučionienė D. Investigation on the Dynamic Water Absorption of Double-Layered Weft Knitted Fabrics. Fibres & Textiles in Eastern Europe 2011; 19, 6, 89: 64-70.
27. Abramavičūtė J, Mikučionienė D, Čiukas R. Static Water Absorption of Knits from Natural and Textured Yarns. Fibres & Textiles in Eastern Europe 2011; 19, 3, 86: 60-63.
28. Önera E, Atasağunb HG, Okura A, Bedenc AR, Durur G. Evaluation of moisture management properties on knitted fabrics. The Journal of The Textile Institute 2013. http://dx.doi.org/10.1080/004 05000.2012.752895.
29. Konopova I, Oggianob L, Chinga-Carrasco G, Troynikova O, Satranb L, Alam F. Aerodynamic and Comfort Characteristics of A Double Layer Knitted Fabric Assembly for High Speed Winter Sports. Procedia Engineering 2010; 2: 2837– 2843.
30. Dias T, Delkumurewatte GB. Changing porosity of knitted structures by changing tightness factor. Fibers and Polymers 2008; 9, 1: 76-79.
31. Spencer DJ. Knitting Technology: a Comprehensive Handbook and Practical Guide. Cambridge, 2001.
32. AATCC Test Method 195-2012. Liquid Moisture Management Properties of Textile Fabrics

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Bibliografia

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