Abstract
Lint generation, which is occurred due to the yarn to yarn friction during the subsequent processing of the yarns is one of the yarn
properties causing several problems such as fiber loss, decreasing in yarn strength, problems in machines and working environment
during fabric production and showing itself as faults on fabrics. As a result of all, it causes decreasing in the production productivity. In
this study, it was aimed to define the lint generation characteristics of the yarns produced by different production systems (ring,
compact, rotor, RoCoS compact, siro). Lint generation tendencies of these yarns were tested by using CTT (Constant Tension Transport)
instrument. Besides, the effects of the production systems, the influence of the winding process on lint shedding feature and the
correlation between the yarn hairiness and lint generation was statistically investigated.
Keywords
Lint generation Yarn hairiness Winding Cotton yarn Ring Rotor Compact Siro RoCoS compact Spinning
References
- 1. Koo Y.S., Kim H.D, “Friction of Cotton Yarn in Relation to Fluff Formation on Circular Knitting Machines”, Textile Research Journal, 2002, Vol.72 (17), pp.17-20
- 2. Koo Y.S., “Yarn hairiness affecting fluff generation”, Fibers and Polymers, 2003, Vol.4 (3), pp.119-123
- 3. Basu, A., Gotipamul, L.R., “Lint Shedding Propensity of Cotton and Blended Yarns”, Indian Journal of Fibre and Textile Research, 2003, Vol.28 (3), pp.288-294
- 4. Yuksekkaya M.E., “A study of fly generation during raising”, The Journal of the Textile Institute, 2008, Vol.99 (4), pp.169-176
- 5. Yuksekkaya M.E., “Fiber Fly Generation of Soybean Yarns during Weaving”, Journal of Textile Science and Engineering, 2012, Vol.2 (7), pp.1-5
- 6. Bhomıck N., Ghosh A., “Role of Yarn Hairiness in Knitting Process and its Impact on Knitting Room’s Environment”, Wseas Transactions on Environment and Development, 2008, Vol. 4 (4), pp.360-371
- 7. Bhomıck N., Ghosh, S., “Fibre Shedding from Cotton Spun Yarn-A Serious Indoor Air Pollution in Knitting Industry”, 2007, 5th WSEAS Int. Conf. on Environment, Ecosystems and Development, Tenerife, Spain, December 14-1
- 8. Ghosh A., Patanaik A., Nandjiwala R. D., Rengasamy R. S., “A Study on Dynamic Friction of Different Spun Yarns”, Journal of Applied Polymer Science, 2008, Vol. 108 (5), pp.3233-3238
- 9. Barella, A., Manich, A.M.,“Yarn Hairiness Update”, Textile Progress, 1997, Vol. 26 (4), pp.1-29
- 10. Ozcelik K.G., “The Frictional and Lint Shedding Characteristics of Regenerated Cellulosic Yarns”, Industria Textila, 2014, Vol.65 (5), pp.263-270
- 11. Süpüren G., Özçelik Kayseri G., Özdil N. , “A Research on Lint Generation Properties of Different Carpet Yarns”, 2010, XII IITAS, 28-30 October, İzmir
- 12. Xu W. and et.al, “Embeddable and Locatable Spinning”, Textile Research Journal, 2010, Vol.81 (3), pp.223-229
- 13. Su X., Gao W., Liu X., Xie C., Xu B., “Research on the Compact-Siro Spun Yarn Structure”, Fibres & Textiles in Eastern Europe, 2015,Vol.3 (111), pp.54-57.
- 14. Yılmaz D., Büyük L., Topuz Z., “The Analysis of Yarn and Fabric Properties of Second Generation Compact Spinning Systems”, Electronic Journal of Textile Technologies, 2013, Vol.7 (3), pp.15-29
- 15. Das A., Kothari V.K., Sadachar A., “Study on Characteristics of Compact Yarns under Dynamic State”, Fibers and Polymers, 2007, Vol.8 (1), pp.111-115
- 16. Ute Bedez T., “A Comparative Study between the Dynamic Friction Characteristics of Compact and Siro Yarns”, Tekstil ve Konfeksiyon, 2016, Vol. 26 (1), pp.55-63
- 17. Coll-Tortosa L., Marcelo. F.X., “Medición de la Vellosidad de los Hilados en Función de la Metodologia Utilizada”, Bol. Intexter 1992;,No. 102, pp.57-65
- 18. Koo Y.S., “Waxing Effect on Lint Contamination in the Knitting Process”, Textile Research Journal, 2008, Vol. 78(2), pp.168–173.
- 19. Telli A., Özdil N., “Lint Generation of the Yarns Produced PET Fibers”, International Congress of Innovative Textiles- ICONTEX, 20- 22 October, 2011, pp.32-35.
- 20. Lawson-Hempfill, CTT User Manuel & Technical Documents
- 21. www.lawsonhemphill.com
Abstract
İpliğin sonraki işlemleri sırasında, iplik-iplik sürtünmesi nedeniyle oluşan döküntü oluşumu, lif kaybına, iplik mukavemetinde
azalmaya, kumaş üretimi sırasında makine ve çalışma ortamında problemler yaşanmasına yol açmakta ve kendini kumaş üzerinde
hatalar şeklinde göstermektedir. Bütün bunların sonucunda, üretim verimliliğinde azalmaya neden olmaktadır. Bu çalışmada, farklı
üretim sistemlerinde (ring, kompakt, rotor, RoCoS kompakt, siro) üretilen ipliklerin döküntü oluşturma özelliklerinin incelenmesi
amaçlanmıştır. Bu ipliklerin döküntü oluşturma eğilimleri CTT cihazı ile test edilmiştir. Üretim sistemlerinin etkisi yanında, bobinleme
işleminin döküntü oluşumuna etkisi incelenmiş ve iplik tüylülüğü ve döküntü oluşumu arasındaki ilişki istatistiksel olarak tespit
edilmiştir.
Keywords
Döküntü oluşumu İplik tüylülüğü Bobinleme Pamuk ipliği Ring Rotor Kompakt Siro RoCoS kompakt Eğirme
References
- 1. Koo Y.S., Kim H.D, “Friction of Cotton Yarn in Relation to Fluff Formation on Circular Knitting Machines”, Textile Research Journal, 2002, Vol.72 (17), pp.17-20
- 2. Koo Y.S., “Yarn hairiness affecting fluff generation”, Fibers and Polymers, 2003, Vol.4 (3), pp.119-123
- 3. Basu, A., Gotipamul, L.R., “Lint Shedding Propensity of Cotton and Blended Yarns”, Indian Journal of Fibre and Textile Research, 2003, Vol.28 (3), pp.288-294
- 4. Yuksekkaya M.E., “A study of fly generation during raising”, The Journal of the Textile Institute, 2008, Vol.99 (4), pp.169-176
- 5. Yuksekkaya M.E., “Fiber Fly Generation of Soybean Yarns during Weaving”, Journal of Textile Science and Engineering, 2012, Vol.2 (7), pp.1-5
- 6. Bhomıck N., Ghosh A., “Role of Yarn Hairiness in Knitting Process and its Impact on Knitting Room’s Environment”, Wseas Transactions on Environment and Development, 2008, Vol. 4 (4), pp.360-371
- 7. Bhomıck N., Ghosh, S., “Fibre Shedding from Cotton Spun Yarn-A Serious Indoor Air Pollution in Knitting Industry”, 2007, 5th WSEAS Int. Conf. on Environment, Ecosystems and Development, Tenerife, Spain, December 14-1
- 8. Ghosh A., Patanaik A., Nandjiwala R. D., Rengasamy R. S., “A Study on Dynamic Friction of Different Spun Yarns”, Journal of Applied Polymer Science, 2008, Vol. 108 (5), pp.3233-3238
- 9. Barella, A., Manich, A.M.,“Yarn Hairiness Update”, Textile Progress, 1997, Vol. 26 (4), pp.1-29
- 10. Ozcelik K.G., “The Frictional and Lint Shedding Characteristics of Regenerated Cellulosic Yarns”, Industria Textila, 2014, Vol.65 (5), pp.263-270
- 11. Süpüren G., Özçelik Kayseri G., Özdil N. , “A Research on Lint Generation Properties of Different Carpet Yarns”, 2010, XII IITAS, 28-30 October, İzmir
- 12. Xu W. and et.al, “Embeddable and Locatable Spinning”, Textile Research Journal, 2010, Vol.81 (3), pp.223-229
- 13. Su X., Gao W., Liu X., Xie C., Xu B., “Research on the Compact-Siro Spun Yarn Structure”, Fibres & Textiles in Eastern Europe, 2015,Vol.3 (111), pp.54-57.
- 14. Yılmaz D., Büyük L., Topuz Z., “The Analysis of Yarn and Fabric Properties of Second Generation Compact Spinning Systems”, Electronic Journal of Textile Technologies, 2013, Vol.7 (3), pp.15-29
- 15. Das A., Kothari V.K., Sadachar A., “Study on Characteristics of Compact Yarns under Dynamic State”, Fibers and Polymers, 2007, Vol.8 (1), pp.111-115
- 16. Ute Bedez T., “A Comparative Study between the Dynamic Friction Characteristics of Compact and Siro Yarns”, Tekstil ve Konfeksiyon, 2016, Vol. 26 (1), pp.55-63
- 17. Coll-Tortosa L., Marcelo. F.X., “Medición de la Vellosidad de los Hilados en Función de la Metodologia Utilizada”, Bol. Intexter 1992;,No. 102, pp.57-65
- 18. Koo Y.S., “Waxing Effect on Lint Contamination in the Knitting Process”, Textile Research Journal, 2008, Vol. 78(2), pp.168–173.
- 19. Telli A., Özdil N., “Lint Generation of the Yarns Produced PET Fibers”, International Congress of Innovative Textiles- ICONTEX, 20- 22 October, 2011, pp.32-35.
- 20. Lawson-Hempfill, CTT User Manuel & Technical Documents
- 21. www.lawsonhemphill.com
Details
| Journal Section | Articles |
|---|---|
| Authors | |
| Publication Date | September 30, 2017 |
| Submission Date | September 30, 2017 |
| Acceptance Date | January 18, 2017 |
| Published in Issue | Year 2017 Volume: 27 Issue: 3 |