Performance Properties of Half-bleached Weft Knitted Fabrics Made of 100% Cotton Ring Yarns with Different Parameters


  • Desalegn Atalie Bahir Dar University, Ethiopian Institute of Textile and Fashion Technology, Textile Production Research and Innovation Centre, 1037, Bahir Dar, Ethiopia Author
  • Gashaw Ashagre Bahir Dar University, Ethiopian Institute of Textile and Fashion Technology, Textile Production Research and Innovation Centre, 1037, Bahir Dar, Ethiopia Author



yarn parameters, knitted fabrics, half-bleached, abrasion, pilling, snagging resistance


Knitted fabrics are distinguished by their outstanding comfort for clothing and for their rapid mass production. Though cotton knitted fabrics can provide better comfort, their physical appearance and service life are affected by many factors, and they have a propensity for pilling, abrasion and snagging. The main goal of this research work was to investigate the effect of yarn parameters on the abrasion, pilling and snagging resistance of half-bleached knitted fabrics. Six knitted fabrics were manufactured from 100% cotton carded ring yarn with a linear density of 21, 25, and 30 tex, with two yarn twist levels for each linear density. Except for yarn linear density and twist, the remaining yarn and machine parameters were constant, including fabric manufacturing. The knitted fabrics were treated using a half-bleach treatment before property evaluation. The results showed that knitted fabric made from a finer count of 21 tex with a higher yarn twist of 920 m−1 had the highest mass loss ratio of 2.12–10.76%, and the lowest abrasion resistance of 89–97.88% between 5,000 to 20000 abrasion cycles. The highest abrasion resistance of 96.4–98.9% (mass loss ratio of 1–3.5%) was recorded for a single jersey knitted fabric made from coarser yarn (30 tex) with the lower twist of 826 m−1. The abrasion resistance of knitted fabrics was significantly affected by the thickness of the fabric, while regression analysis proved that fabric thickness and mass loss ratio had very good correlation, with an adjusted R2 value of 93.8%. The snagging resistance of knitted fabrics increased as yarn twist and fineness increased. Pilling propensity increased as yarn linear density increased and twist decreased. Linear regression results revealed that yarn linear density and twist were highly correlated to abrasion resistance (mass loss method) at an adjusted R2 value of 98.6% or 0.986 after 20,000 rubs.


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ÖZGÜNEY, A.T., DÖNMEZ, Kretzschmar S., ÖZÇELIK, G., ÖZERDEM, A. The comparison of cotton knitted fabric properties made of compact and conventional ring yarns before and after the printing process. Textile Research Journal, 2008, 78(2), 138–147, doi: 10.1177/0040517507080249. DOI:

OMEROGLU, S., ULKU, S. An investigation about tensile strength, piling and abrasion prop¬erties of woven fabrics made from conventional and compact ring-spun yarns. Fibres and Textiles in Eastern Europe, 2007, 15(1), 39–42.

MCCORD, J.P.M. Cotton quality study: V: Resistance to abrasion. Textile Research Journal, 1960, 30(10), 715–751, doi: 10.1177/004051756003001001. DOI:

SAVILLE, B.P. Physical testing of textiles. Cambridge : Woodhead Publishing, 1999. DOI:

KALAOGLU, F., ONDER, E., ÖZIPEK, B. Influence of varying structural parameters on abrasion char¬acteristics of 50/50 wool/polyester blended fabric. Textile Research Journal, 2003, 73(11), 980–984, doi: 10.1177%2F004051750307301108. DOI:

DAIVA, M. The influence of structure parameters of weft knitted fabrics on propensity to pilling the influence of structure parameters of weft knitted fabrics on propensity to pilling. Materials Science (Medžiagotyra), 2009, 15(4), 335–338.

PAEK, S.L. Pilling, abrasion, and tensile prop¬erties of fabrics from open-end and ring spun yarns 1. Textile Research Journal, 1989, 59(10), 577–583, doi: 10.1177/004051758905901004. DOI:

KAYSERI, G.Ö., KIRTAY, E. Predicting the pill¬ing tendency of the cotton interlock knitted fab¬rics by artificial neural network: part II. Journal of Engineered Fibres and Fabrics, 10(4), 2015, 62–71, doi: 10.1177/155892501501000417. DOI:

BELTRAN, R., WANG, L., WANG, X. Predicting the pilling tendency of wool knits. The Journal of The Textile Institute, 2006, 97(2), 129–136, doi: 10.1533/joti.2005.0135. DOI:

UYANIK, S., TOPALBEKIROGLU, M. The ef¬fect of knit structures with tuck stitches on fabric properties and pilling resistance. The Journal of The Textile Institute, 2017, 108(9), 1584‒1589, doi: 10.1080/00405000.2016.1269394. DOI:

OKUBAYASHI, S., CAMPOS, R., ROHRER, C., BECHTOLD, T. A pilling mechanism for cellu¬losic knit fabrics – effects of wet processing. The Journal of The Textile Institute, 2005, 96(1), 37–41, doi: 10.1533/joti.2004.0055. DOI:

CANDAN, C., ÖNAL, L. Dimensional, pill¬ing, and abrasion properties of weft knits made from open-end and ring spun yarns. Textile Research Journal, 2002, 72(2), 164–169, doi: 10.1177/004051750207200213. DOI:

AKAYDIN, M., CAN, Y. Pilling performance and abrasion characteristics of selected basic weft knitted fabrics. Fibres and Textiles in Eastern Europe, 2010, 18(2), 51–54.

EL-DESSOUKI, H.A.A. Study on abrasion character¬istics and pilling performance of socks. International Design Journal, 2010, 4(2), 229–234, https://

BUSILIENĖ, G., LEKECKAS, K., URBELIS, V. Pilling resistance of knitted fabrics pilling resistance of knitted fabrics. Materials Science (Medžiagotyra), 2011, 17(3), 297–301, doi: 10.5755/ DOI:

AKTER, S., Al FARUQUE, M.A., ISLAM, M.M. Effect of stitch length on different properties of

plain single jersey fabric. International Journal of Modern Engineering Research, 2017, 7(3), 71‒75.

ASSEFA, A., GOVINDAN, N. Physical prop¬erties of single jersey derivative knitted cotton fabric with tuck and miss stitches. Journal of Engineered Fibres and Fabrics, 2020, 15, doi: 10.1177/1558925020928532. DOI:

İNCE, M.E. The effect of number and position of tuck stitches within the pattern repeat on air permeability of weft-knitted fabrics from glass yarn. Academic Perspective Procedia, 2019, 2(3), 317‒323, doi: 10.33793/acperpro.02.03.2. DOI:

SHAHID, M.A., HOSSAIN, M.D., NAKIB-UL-HASAN, M., ISLAM, M.A. Comparative study of ring and compact yarn-based knitted fabric. Procedia Engineering, 2014, 90(1), 154-159, doi: 10.1016/j.proeng.2014.11.829. DOI:

SIDDIKA, A., UDDIN, M.N., JALIL, M.A., AKTER, N.N., SAHA, K. Effects of carded and combed yarn on pilling and abrasion resistance of single jersey knit fabric. IOSR Journal of Polymer and Textile Engineering, 2017, 4(2), 39-43, doi: 10.9790/019X-04023943. DOI:

KANE, C.D., PATIL, U.J., SUDHAKAR, P. Studies on the influence of knit structure and stitch length on ring and compact yarn single jersey fabric properties. Textile Research Journal, 2007, 77(8), 572–582, doi: 10.1177/0040517507078023. DOI:

MILAŠIUS, V., MILAŠIUS, R., KUMPIKAITÉ, E., OLŠAUSKIENÉ, A. Influence of fabric structure on some technological and end-use properties. Fibres & Textiles in Eastern Europe, 2003, 41(2), 48–51.

ATALIE, D., GIDEON, R. K., FEREDE, A., TESINOVA, P., LENFELDOVA, I. Tactile com¬fort and low-stress mechanical properties of half-bleached knitted fabrics made from cotton yarns with different parameters. Journal of Natural Fibres, 2019, in press, doi: 10.1080/15440478.2019.1697989. DOI:

ORTLEK, H.G., TUTAK, M., YOLACAN, G. Assessing colour differences of viscose fabrics knitted from vortex-, ring- and open-end ro¬tor-spun yarns after abrasion. The Journal of The Textile Institute, 2010, 101(4), 310–314, doi: 10.1080/00405000802399528. DOI:

MOHAMED, M.H., LORD, P.R. Comparison of physical properties of fabrics woven from open-end and ring spun yarn. Textile Research Journal, 1973, 43(3), 154–166, doi: 10.1177%2F004051757304300306. DOI:

BECEREN, Y., NERGIS, B.U. Comparison of the effects of cotton yarns produced by new, modified and conventional spinning systems on yarn and knitted fabric performance. Textile Research Journal, 2008, 78(4), 297–303, doi: 10.1177/0040517507084434. DOI:

ALTAS, S., KADOĞLU, H. Comparison of con¬ventional ring mechanical compact and pneu¬matic compact yarn spinning systems. Journal of Engineered Fibres and Fabrics, 2012, 7(1), 87–100, doi: 10.1177/155892501200700110. DOI:

BLACK, D.H. Knitting with cotton and cotton blend open-end spun yarns. Textile Research Journal, 1975, 45(1), 48–53, doi: 10.1177%2F004051757504500109. DOI:

ORTLEK, H.G., ONAL, L. Comparative study on the characteristics of knitted fabrics made of vor¬tex-spun viscose yarns. Fibres and Polymers, 2008, 9(2), 194–199, doi: 10.1007/s12221-008-0031-3. DOI:

KRETZSCHMAR, S.D., ÖZGÜNEY, A.T., ÖZÇELIK, G., ÖZERDEM, A. The comparison of cotton knitted fabric properties made of com¬pact and conventional ring yarns before and after the dyeing process. Textile Research Journal, 2007, 77(4), 233–241, doi: 10.1177/0040517507076745. DOI:

YANG, C.Q., ZHOU, W., LICKFIELD, G.C., PARACHURA, K. Cellulase treatment of dura¬ble press finished cotton fabric: effects on fabric strength, abrasion resistance, and handle. Textile Research Journal, 2003, 73(12), 1057–1062, doi: 10.1177/004051750307301205. DOI:

CANDAN, C., NERGIS, U.B., IRIDAĞ, Y. Performance of open-end and ring spun yarns in weft knitted fabrics. Textile Research Journal, 2000, 70(2), 177–181, doi: 10.1177/004051750007000215. DOI:

ATALIE, D., GIDEON, R. Prediction of psycho¬logical comfort properties of 100% cotton plain woven fabrics made from yarns with different parameters. Tekstilec, 2020, 63(1), 60‒67, doi: 10.14502/Tekstilec2020.63.60-67. DOI:

ISO12947-1. Textiles – Determination of the abrasion resistance of fabrics by the Martindale method – Part 1: Martindale abrasion testing apparatus. Geneva : ISO Copyright Office, 1998.

AKTER, Smriti S., ISLAM, Md. Azharul. An ex¬ploration on pilling attitudes of cotton polyester blended single jersey knit fabric after mechanical singeing. Science Innovation, 2015, 3(1), 18–21, doi: 10.11648/ DOI:

ASIF, A., RAHMAN, M., FARHA, F.I. Effect of knitted structure on the properties of knitted fab¬ric. International Journal of Science and Research (IJSR), 2015, 4(1), 1231–1235, <https://www.ijsr. net/get_abstract.php?paper_id=SUB15355>.






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How to Cite

Atalie, D., & Ashagre, G. (2021). Performance Properties of Half-bleached Weft Knitted Fabrics Made of 100% Cotton Ring Yarns with Different Parameters. Tekstilec, 64(3), 188-196.

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