Open Access Open Access  Restricted Access Subscription Access

Moisture Management Properties and Drying Behaviour of Knitted Fabrics for Inner Layer Applications


Affiliations
1 Department of Textile Technology, Utter Pradesh Textile Technology Institute, Kanpur 208 001, India
2 Department of Textile and Fibre Engineering, Indian Institute of Technology Delhi, New Delhi 110 016, India
 

The present research work is focused on moisture management properties and drying behaviour of various knitted fabrics for inner layer application. Nineteen knitted samples have been prepared by changing the blend percentage of wool/acrylic, number of filaments in polypropylene yarn and structure of knitted fabric. Yarns of different blend ratio of wool/acrylic fibre are used to knit fabrics of different structure. Polypropylene yarns having different number of filaments are also used to knit samples of different structure. These fabrics are tested for moisture management properties and drying behaviour. Wetting time, absorption rate, spreading speed, wetting radius, accumulative one-way transport index (AOWTI), overall moisture management capacity (OMMC), drying time and drying rate of the fabrics have been studied. It is observed that the overall performance of polypropylene knitted fabric and cotton knitted fabric are better as compared to the wool/acrylic having same structural parameters. The OMMC index of polypropylene plain knit, pile knit and cotton knit fabric is found as 0.70, 0.60 and 0.75 respectively. The polypropylene and cotton knitted fabrics shows better results than others in terms of the parameters, like maximum wetting radius, AOWTI, etc. Polypropylene knitted pile structure fabric shows minimum drying time (0.228 h) and zero residual moisture after wash at 90 min under standard conditions. So, it is found that the higher wool content in fabrics gives better moisture management and drying behaviour. Polypropylene fabrics having high number of filaments in the constituent yarn show better moisture management and drying behaviour than the wool/acrylic fabrics. Moisture management and drying behaviour of pile fabrics are better than the plain and rib fabrics.

Keywords

Drying Rate, Knitted Structure, Moisture Management Property, Polypropylene Filament, Sweat.
User
Notifications
Font Size

  • Yamlmaz M & Kalaoglu F , Text Res J , 82(8) (2012)820.
  • Stampfli R, Bruhwiler PA , Rechsteiner I, Meyer VR & Rossi RM, Measurement, 46(3) (2013) 1212.
  • YoungminJ, Chung HP & Tae JK, Text Res J, 80(20) (2020)2195.
  • Gat A D, Vahdan A, Navaz H, Nowakowski A & Gharib N, Appl Physics Letters, 103(13) (2013).
  • Atkins K & Thompos M, Exerc J Science Fit , 9(2) (2011) 100.
  • Das A & Algirusamy R, Science in Clothing Comfort (Wood head Publishing India Pvt.Ltd. New Delhi, India), 2010.
  • Kucukali M, Nergis B & Canda C, Text Res J, 81(2011) 324.
  • Hasan M, Calvimontes A & Synytska A, Text Res J, 78 (2009) 996.
  • Wick wire J, Bishopb PA, Greenb J M, Richardsonb M T Lomaxe RG , Casarub C , Curther – Smithb M & Dossb B, Int J Ind Ergonom, 37 (2007) 643.
  • Nida O & Arzu M, Fibre Text East Eur, 15 (5)(2007) 64.
  • Wang N, Zha A & Wang J, Fibre Polym, 9 (2008) 97.
  • Onofrei E, Rocha AM & Catarino A, J Eng Fibre Fabric , 6 (2011) 10.
  • Hu J , Li Y , Yeung K , Wong A S W & Xu W, Text Res J, 75 (2005) 57.
  • Drying Rate of Fabrics: Heated Plate Method, AATCC 201 (American Association of Textile Chemists and Colorists), 2014.
  • Moisture Management Tester Operation Manual (SDL Atlas M290), 2017.
  • Li Yi, Xu W & Yeung KW, Kwok Y L, US Pat 6,499,338 B2(2002).
  • Fangueiro R, Filgueiras A, Soutinho F & Meidi Xie, Text Res J, 80 (15) (2010) 1522.
  • Raechel M Laing, Cheryl A Welson, Shaini E Gore & Brian E Niven, Text Res J, 77 (8) (2007) 583.
  • Kumar P, Sinha SK, Ghosh S & Fashion Text, 2(5) (2015) 1.
  • Qing Ch, Dahua S, Rong Z, JintuF, Xianfu W, Bailu F & Pibo M, Fibre Polym, 21(6) (2020) 1347.
  • MMT User Manual (Institute of Textile & Clothing, The Hong Kong Polytechnic University), 2000, 16
  • Yao B G, Li Y & Hu J Y, Polym Test, 25(2006) 677.
  • Liya Z, Xunwei F, Yanfenj D & Yi L, Text Res J, 77(12) (2007) 951.
  • Liquid Moisture Management Properties of Textile Fabric, AATCC195 (American Association of Textile Chemists and Colorists), 2017.

Abstract Views: 140

PDF Views: 97




  • Moisture Management Properties and Drying Behaviour of Knitted Fabrics for Inner Layer Applications

Abstract Views: 140  |  PDF Views: 97

Authors

Kamal Kumar
Department of Textile Technology, Utter Pradesh Textile Technology Institute, Kanpur 208 001, India
Apurba Das
Department of Textile and Fibre Engineering, Indian Institute of Technology Delhi, New Delhi 110 016, India
Prashant Vishnoi
Department of Textile Technology, Utter Pradesh Textile Technology Institute, Kanpur 208 001, India
Jitendra Pratap Singh
Department of Textile Technology, Utter Pradesh Textile Technology Institute, Kanpur 208 001, India

Abstract


The present research work is focused on moisture management properties and drying behaviour of various knitted fabrics for inner layer application. Nineteen knitted samples have been prepared by changing the blend percentage of wool/acrylic, number of filaments in polypropylene yarn and structure of knitted fabric. Yarns of different blend ratio of wool/acrylic fibre are used to knit fabrics of different structure. Polypropylene yarns having different number of filaments are also used to knit samples of different structure. These fabrics are tested for moisture management properties and drying behaviour. Wetting time, absorption rate, spreading speed, wetting radius, accumulative one-way transport index (AOWTI), overall moisture management capacity (OMMC), drying time and drying rate of the fabrics have been studied. It is observed that the overall performance of polypropylene knitted fabric and cotton knitted fabric are better as compared to the wool/acrylic having same structural parameters. The OMMC index of polypropylene plain knit, pile knit and cotton knit fabric is found as 0.70, 0.60 and 0.75 respectively. The polypropylene and cotton knitted fabrics shows better results than others in terms of the parameters, like maximum wetting radius, AOWTI, etc. Polypropylene knitted pile structure fabric shows minimum drying time (0.228 h) and zero residual moisture after wash at 90 min under standard conditions. So, it is found that the higher wool content in fabrics gives better moisture management and drying behaviour. Polypropylene fabrics having high number of filaments in the constituent yarn show better moisture management and drying behaviour than the wool/acrylic fabrics. Moisture management and drying behaviour of pile fabrics are better than the plain and rib fabrics.

Keywords


Drying Rate, Knitted Structure, Moisture Management Property, Polypropylene Filament, Sweat.

References