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Evaluation of Moisture Management Properties of Plated Interlock, Mini Flat Back Rib and Flat Back Rib Structures

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Warianty tytułu
PL
Ocena właściwości zarządzania wilgocią w strukturach dziewiarskich
Języki publikacji
EN
Abstrakty
EN
Moisture management is a very fundamental criterion for any type of fabric. Hence, in this study three different knits viz plated interlock, mini flat back rib and flat back rib fabric structures with 100% eri silk (top), 100% bamboo (bottom) and 100% tencel (bottom) with the combination of two different yarn counts were used. The yield was tested for moisture management properties. It was identified that the bi-layer eri silk (14.3 tex) combined with bamboo (14.8 tex) and tencel (14.8 tex) plated interlock, mini flat back rib and flat back rib knit structure fabrics were excellent. Due to the high level of comfort and breathable nature, eri silk with bamboo and tencel fabrics are recommended for performance based garments.
PL
Zarządzanie wilgocią jest podstawowym kryterium dla każdego rodzaju wyrobu włókienniczego. W badaniu poddano analizie trzy różne struktury dziewiarskie o różnych splotach i składach takich jak: 100% jedwabiu eri, 100% bambusa i 100% tencel. Uzyskane struktury zbadano pod kątem właściwości zarządzania wilgocią. Stwierdzono, że struktura powstała z dwuwarstwowego jedwabiu eri (14,3 tex) w połączeniu z bambusem (14,8 tex) i tencelem (14,8 tex) daje najlepsze właściwości. Ze względu na wysoki poziom komfortu i oddychalności jedwab eri w połączeniu z bambusem i tencelem jest zalecany do odzieży wymagającej bardzo dobrych właściwości zarządzania wilgocią.
Rocznik
Strony
66--74
Opis fizyczny
Bibliogr. 40 poz., rys., tab.
Twórcy
  • Sona College of Technology, Department of Fashion Technology, Salem – 636 005, Tamilnadu, India
  • Sona College of Technology, Department of Fashion Technology, Salem – 636 005, Tamilnadu, India
  • Centre for Apparel Research and Education, NIFT TEA Knitwear Fashion Institute, Tirupur – 641 606, Tamilnadu, India
Bibliografia
  • 1. Chinta SK, Gujar PD. Significance of Moisture Management for High Performance Textile Fabrics. International Journal of Innovative Research in Science, Engineering and Technology 2013; 2(3): 814-819.
  • 2. Das B, Das A, Kothari VK, Fangueiro R, de Araujo M. Moisture Transmission through Textiles – Part I: Processes Involved in Moisture Transmission and the Factors at Play. Autex Research Journal, 2007; 7(2): 100-110.
  • 3. Figen Selli, Yıldıray, Turhan. Investigation of Air Permeability and Moisture Management Properties of the Commercial Single Jersey and Rib Knitted Fabrics. Tekstil Ve Konfeksiyon 2017; 27(1): 27-31.
  • 4. 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; 40: 243-249.
  • 5. Rathinamoorthy R. Moisture Management Characteristics of Knitted Casein Fabric. Indian Journal of Fibre & Textile Research 2017; 42: 488-494.
  • 6. Karthik T, Senthilkumar P, Murugan R. Analysis of Comfort and Moisture Management Properties of Polyester / Milkweed Blended Plated Knitted Fabrics for Active Wear Applications. Journal of Industrial Textiles 2016; 47(5): 897-920.
  • 7. Karthikeyan G, Nalakilli G, Shanmugasundaram OL, Prakash C. Moisture Management Properties of Bamboo Viscose/Tencel Single Jersey Knitted Fabrics. Journal of Natural Fibers 2016; 14 (1): 143-152.
  • 8. Prakasha C, Ramakrishnanb G, Koushika CV. Effect of Blend Proportion on Moisture Management Characteristics of Bamboo/Cotton Knitted Fabrics. The Journal of The Textile Institute 2013; 104(12): 1320-1326.
  • 9. Sampath MB, Mani S, Nalankilli G. Effect of Filament Fineness on Comfort Characteristics of Moisture Management Finished Polyester Knitted Fabrics. Journal of Industrial Textiles 2011; 41(2): 160-173.
  • 10. Özkan ET, Meric B. Thermophysiological Comfort Properties of Different Knitted Fabrics Used in Cycling Clothes. Textile Research Journal 2014; 85: 62-70.
  • 11. Özkan ET, Kaplangiray BM. Investigating Thermo Physiological Comfort Properties of Polyester Knitted Fabrics. Journal of Textile Engineering & Fashion Technology 2019; 5(1): 50-56.
  • 12. Epps HH, Song MK. Thermal Transmittance and Air Permeability of Plain Weave Fabrics. Clothing and Textile Research Journal 1992; 11(1): 10-17.
  • 13. Huang J. Thermal Parameters for Assessing Thermal Properties of Clothing. Journal Of Thermal Biology 2006; 31(6): 461-466.
  • 14. Supuren G, Oglakcioglu N, Ozdil N, Marmarali A. Moisture Management and Thermal Absorptivity Properties of Double-Face Knitted Fabrics. Textile Research Journal 2011; 81(13): 1320-1330.
  • 15. Kyoung AS, Gam HJ, Cao H. Evaluating Thermal and Sensorial Performance of Organic Cotton, Bamboo-Blended, and Soybean-Blended Fabrics. Clothing and Textile Research Journal 2013; 31(3): 157-166.
  • 16. Das B, Das A, Kothari V, Fanguiero R. Araujo MD. Moisture Flow through Blended Fabrics-Effect of Hydrophilicity. Journal of Engineered Fibers and Fabrics 2009; 4(4): 20-28.
  • 17. Onofrei E, Rocha AM, Catarino A. The Influence of Knitted Fabrics’ Structure on the Thermal and Moisture Management Properties. Journal of Engineered Fibers and Fabrics 2011; 6(4): 10-22.
  • 18. Supuren G, Oglakcioglu N, Ozdil N, Marmarali A. Moisture Management and Thermal Absorptivity Properties of Double-Face Knitted Fabrics. Textile Research Journal 2011; 81: 1320-1330.
  • 19. 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.
  • 20. Oner E, Okur A. The Effect of Different Knitted Fabrics’ Structures on the Moisture Transport Properties. The Journal of the Textile Institute 2013; 104(11):1164-1177.
  • 21. Oner E, Atasagun HG, Okur A, Beden AR, Durur G. Evaluation of Moisture Management Properties on Knitted Fabrics. The Journal of The Textile Institute 2013; 104: 699-707.
  • 22. Wardiningsih W, Troynikov O. Influence of Cover Factor on Liquid Moisture Transport Performance of Bamboo Knitted Fabrics. The Journal of The Textile Institute 2012; 103: 89-98.
  • 23. Suganthi T, Senthilkumar P. Moisture-Management Properties of Bi-Layer Knitted Fabrics for Sportswear. Journal of Industrial Textiles 2018; 47: 1447-1463.
  • 24. Sivagnanam J, Senthil Kumar B. Effect of Inlay Yarn in Moisture and Thermal Transmission Properties of Plaited Double Knit Fabric Structures. International Journal for Research in Applied Science & Engineering Technology 2020; 8 (II): 770-774.
  • 25. Suganthi T, Senthilkumar P. Comfort Properties of Double Face Knitted Fabrics for Tennis Sportswear. Indian Journal of Fibre & Textile Research 2018; 43: 9-19.
  • 26. Sakthi P, Sangeetha K, Bhuvaneshwari M. Development of Double Layer Knitted Fabric for Sportswear Using Tencel/Polypropylene fibres. International Journal of Current Research and Review 2016; 8(6): 30-34.
  • 27. Suganthi T, Senthilkumar P, Dipika V. Thermal Comfort Properties of a Bi-layer Knitted Fabric Structure for Volleyball Sportswear. FIBRES & TEXTILES in Eastern Europe 2017; 25, 1(121): 75-80. DOI: 10.5604/12303666.1227885.
  • 28. Senthilkumar P, Suganthi T. Influence of Tuck Stitch in Wale Direction on Thermal Comfort Characteristics of Layered Knitted Fabrics. Indian Journal of Fibre & Textile Research 2019; 44: 65-74.
  • 29. Wang SX, Li Y, Tokura H, Hu JY, Han YX, Kwok YL, Au RW. Effect of Moisture Management on Functional Performance of Cold Protective Clothing. Textile Research Journal 2007; 77(12): 968-980.
  • 30. 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: 529-534.
  • 31. Nazir A, Hussain T, Ahmad F, Faheem S. Effect of Knitting Parameters on Moisture Management and Air Permeability of Interlock Fabrics. AUTEX Research Journal 2014; 14(1): 39-46.
  • 32. Choudhuri PK, Majumdar PK, Sarkar B. Manufacturing of Eri Silk Yarn: A Review. Journal of Man-Made Textiles in India 2011; 39(10): 359-361.
  • 33. Harapanahalli M, Raaja NV. Eri: The Silk of the Century. International Journal of Engineering Technology Science and Research 2016; 3(5): 155-160.
  • 34. Mitra AK. A Study of Some Mechanical Properties of Eri Fabric and Comparative Study with Wool Fabric. Journal of Man-Made Textiles in India 2013; 41(5): 162-166.
  • 35. Kulkarni AA, Kariyappa MG. Physical Properties of Developed Viscose Rayaon and Eri Silk Union Fabrics. Karnataka Journal of Agricultural Sciences 2011; 24(4): 506-509.
  • 36. Pachiyappan KM, Divya R. Investigation of Thermo-Physiological Comfort Characteristics of Eri Silk Knitted Fabrics. International Journal for Research in Engineering Application & Management 2018; 4(6): 28-32.
  • 37. Senthil Kumar B, Ramachandran T. Influence of Knitting Process Parameters on the Thermal Comfort Properties of Eri Silk Knitted Fabrics. FIBRES & TEXTILES in Eastern Europe 2018; 26, 5(131): 47-53. DOI: 10.5604/01.3001.0012.2530.
  • 38. Sharma N, Jain M, Kashyap R. Assessment of Physical Properties of Cotton with Ahimsa and Conventional Silk Union Fabrics. International Journal of Science and Research (IJSR) 2018; 7(4): 458-462.
  • 39. Kumar BS, Kumar MR, Ramachandran T, Parthiban M. Moisture Management Properties of Eri Silk Knitted Fabrics. Indian Journal of Fibre & Textile Research 2019; 44: 389-395.
  • 40. Choudhary HG. Reviving the Magic of Silk for Beauty and Health. International Journal of Research in Engineering and Applied Sciences 2016; 6(4):77-86.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5785119d-6f11-48d9-900d-66c1a902ae8b
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