Indian Journal of Fibre & Textile Research

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Moisture Management Properties of Cellulose Single Jersey Fabrics


Affiliations
1 Department of Handloom and Textile Technology, Indian Institute of Handloom Technology, Salem 636 001, India
2 Department of Handloom and Textile Technology, Indian Institute of Handloom Technology, Fulia 741 402, India
3 Department of Fashion Technology, Sona College of Technology, Salem 636 005, India
 

Modified cellulose (tencel, modal and bamboo) lycra plated single jersey knitted fabrics have been developed with two different loop lengths (2.7mm and 3.4mm) and with different lycra plating (without plating, half plating and full plating), along with the cotton fabrics of same variables. The test results of moisture management properties prove that the overall moisture management capability (OMMC) values of 3.4mm tencel fabric without lycra have the highest value and exhibit an excellent grade in the moisture management test (MMT) chart. This is attributed to the low wetting time, higher bottom absorption rate, higher value of maximum wetted radius and spreading speed and accumulative one-way transport index (AOTI) value. It is also found that the value of OMMC decreases with the increase in elastane content and increases with the increase in loop length. Further, it is also observed that all the developed fabrics fall under the category of good to excellent grades in MMT indices.

Keywords

Comfort, Knitted fabrics, Loop length, Moisture management, Plating, Single jersey fabric, Cellulosic fabric, Tencel
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  • Das B, Das A, Kothari V K, Fanguiero R & Araújo M, Autex Res J, 7 (2007) 100.

  • Chinta S K & Gujar P D, Int J Inno Res Sci Eng Technol, 2 (2013) 814.

  • Divya R, Prakash C, Sampath Kumar S K, Rathinamoorthy R, Kumar K V & Rajwin A J, J Test Eval, 50 (2022) 368.

  • Kumar V, Prakash C, Manigandan G & Sampath V R, Fibre Text East Euro, 29 (2021) 53.

  • Kumar V, Sampath V R & Prakash C, Int J Cloth Sci Technol, 29 (2017) 754.

  • Kumar V, Sampath V R & Prakash C, J Text Inst, 107(2016) 1213.

  • Senthilkumar M, Anbumani N & Hayavadana J, Indian J Fibre Text Res, 36 (2011) 300.

  • Marmarali A B, Text Res J, 73 (2003) 11.

  • Shobanasree P C, Prakash C, Ramesh Kumar M & Lokesh K V, J Natural Fibers, 19 (2022) 11574.

  • Khalil A, Aboalasaad A R & Tesinova P, Ind Textila, 72 (2021) 244.

  • Bhat G, Chand S & Yakopson S, Thermochimica Acta, 367 (2001) 161.

  • Karthikeyan G, Nalankilli G, Shanmugasundram O L & Prakash C, Int J Cloth Sci Technol, 28 (2016) 420.

  • Öner E & Okur AYŞE, J Text Inst, 104 (2013) 1164.

  • Manshahia M & Das A, Indian J Fibre Text Res, 39 (2014) 441.

  • Basit A, Latif W, Ashraf M, Rehman A, Iqbal K, Maqsood H S, Jabber A & Baig S A, Autex Res J, 19 (2019) 80.

  • Özkan E T & Meric B, Text Res J, 85 (2015) 62.

  • Ozkan E T & Kaplangiray B, J Text Eng Fash Technol, 5 (2019) 50.

  • Karthikeyan G, Nalankilli G, Shanmugasundram O L & Prakash C, J Nat Fiber, 1 (2017) 143.

  • Hu J, Li Y, Yeung K W, Wong A S & Xu W, Text Res J, 75 (2005) 57.

  • Ahmad H S & Jamshaid H, Tekstve Konfeksiyon, 29 (2019) 105.

  • Prakash C & Ramakrishnan G, J Text Inst, 104 (2013) 907.

  • Jhanji Y, Gupta D & Kothari V K, J Text Inst, 106 (2015) 663.


Abstract Views: 42

PDF Views: 18




  • Moisture Management Properties of Cellulose Single Jersey Fabrics

Abstract Views: 42  |  PDF Views: 18

Authors

P. C. Shobanasree
Department of Handloom and Textile Technology, Indian Institute of Handloom Technology, Salem 636 001, India
C. Prakash
Department of Handloom and Textile Technology, Indian Institute of Handloom Technology, Fulia 741 402, India
M. Ramesh Kumar
Department of Fashion Technology, Sona College of Technology, Salem 636 005, India

Abstract


Modified cellulose (tencel, modal and bamboo) lycra plated single jersey knitted fabrics have been developed with two different loop lengths (2.7mm and 3.4mm) and with different lycra plating (without plating, half plating and full plating), along with the cotton fabrics of same variables. The test results of moisture management properties prove that the overall moisture management capability (OMMC) values of 3.4mm tencel fabric without lycra have the highest value and exhibit an excellent grade in the moisture management test (MMT) chart. This is attributed to the low wetting time, higher bottom absorption rate, higher value of maximum wetted radius and spreading speed and accumulative one-way transport index (AOTI) value. It is also found that the value of OMMC decreases with the increase in elastane content and increases with the increase in loop length. Further, it is also observed that all the developed fabrics fall under the category of good to excellent grades in MMT indices.

Keywords


Comfort, Knitted fabrics, Loop length, Moisture management, Plating, Single jersey fabric, Cellulosic fabric, Tencel

References