Identyfikatory
Warianty tytułu
Wpływ długości pętli i typy dyszy na strukturalne właściwości dzianin lewo-prawych
Języki publikacji
Abstrakty
We studied the structural properties, bursting strength and pilling properties of single jersey knitted fabrics made from OE rotor spun yarns. Raw material of 100% cotton of the Urfa region of Turkey was specifically handled in the study. The yarns were produced with different nozzle types with a yarn of linear density of 19.67 tex. Five different ceramic nozzles were used in yarn production. These nozzle types are known as K4KK, K4KS, K6KF, K8KK & KSNX. Fabrics were produced by a 28 gauge 32 inch diameter circular knitting machine. The yarns were processed to single jersey knitted fabrics by adjusting the yarn loop length between 14 - 17 cm on the machine as they were the minimum and maximum values limited by the yarn type, machine and commercially accepted conditions. The purpose of this paper was to investigate the effect of fabric density and nozzle type on the structural and performance properties of single jersey knitted fabrics investigated in both a grey and dyed state. In addition, results were interpreted statistically and regression equations obtained.
Badano strukturalne właściwości dzianin, wytrzymałość na rozerwanie i pilling dzianin lewo-prawych wykonanych z przędz rotorowych. Stosowano surowiec w postaci 100% bawełny z regionu Urfa w Turcji. Przędze o masie liniowej 19,7 tex produkowano stosując 5 różnych typów dysz ceramicznych. Zastosowano cylindryczną maszynę dziewiarską. Dzianiny produkowano ustalając różne długości pętli w granicach od 14-17 cm wynikających ze stosowanych warunków technicznych. Dzianiny badano w stanie surowym i barwionym. Wszystkie wyniki były analizowane statystycznie.
Czasopismo
Rocznik
Strony
62--67
Opis fizyczny
Bibliogr. 23 poz., tab., wykr.
Twórcy
autor
- Turkey, Gaziantep, University of Gaziantep, Department of Textile Engineering
autor
- Turkey, Adana, Çukurova University, Department of Textile Engineering
Bibliografia
- 1. Sara J. Kadolph, “Quality assurance for textiles and apparel”2nd Edition, 2007: 167. Collier, Billie J. Textile Testing and Analysis. 1998: 148.
- 2. Erbil Y, Babaarslan O, Baykal PD. Influence of Navel Type on the Hairiness Properties of Rotor-Spun Blend Yarns. Fibres & Textiles in Eastern Europe 2008; 16, 2, 67: 31–34.
- 3. Nawaz M, Jamil NA, Iftikhar M, Farooqi B. Spinning Performance of Open End Yarns as Affected by Some Processing Variables. International Journal of Agriculture & Biology 2002; 4, 2: 252-255.
- 4. Kaplan S, Göktepe Ö. Investigation into Navel Selection for Rotor Spinning Machine Using Cotton Waste. Fibres & Textiles in Eastern Europe 2006; 14, 3: 58-62.
- 5. Kaplan S, Araz C, Göktepe Ö. A Multicriteria Decision Approach on Navel Selection Problem for Rotor Spinning. Textile Research Journal 2006; 76, 12: 896-904.
- 6. Choi M, Ashdown SP. Effect of changes in knit structure and density on the mechanical and hand properties of weftknitted fabrics for outerwear. Textile Research Journal 2000; 70, 12: 1033-1045.
- 7. Çoruh E, Çelik N. Influence of Nozzle Type on Yarn Quality in Open-End Rotor Spinning. Fibres & Textiles in Eastern Europe 2013; 21, 2, 98: 38-42.
- 8. Soe KA, Matsuo T, Takahashi M, Nakajima M. Compression of plain knitted fabrics predicted from yarn properties and fabric geometry. Textile Research Journal 2003; 73, 10: 861-866.
- 9. Çelik N, Çoruh E. Investigation of performance and structural properties of single jersey fabrics made from open-end rotor spun yarns. Tekstil ve Konfeksiyon 2008; 4: 268-277.
- 10. Emirhanova N, ve Kavuşturan Y. Effects of Knit Structure on the Dimensional and Physical Properties of Winter Outwear Knitted Fabrics. Fibres & Textiles in Eastern Europe 2008; 16, 2: 69-74.
- 11. Beltran WL, ve Wang X. Predicting the pilling tendency of wool knits. The Textile Institute 2006; 97, 2: 129-136.
- 12. Li L, Jia G, Zhou W. Effect of Yarn Properties on The Pilling of Cashmere Knitted Fabric. Fibres & Textiles in Eastern Europe 2009; 17, 6: 76-79.
- 13. Çoruh E. Investigation of properties of single jersey fabrics made from OE-rotor yarns produced by using different nozzle types. PhD. Thesis, Çukurova University Institute of Natural and Applied Sciences Department of Textile Engineering Adana. 2011, sf. 237.
- 14. Jasinska I. Assessment of a Fabric Surface After the Pilling Process Based on Image Analysis. Fibres & Textiles in Eastern Europe 2009; 17, 2, 73: 55-58.
- 15. Behera BK, Madan Mohan TE. Objective measurement of pilling by image processing technique. International Journal of Clothing Science and Technology 2005; 17, 5: 279 – 291.
- 16. USTER HVI 900. Kataloğu, Textile Laboratory- Fiber Testing,1991.
- 17. TS EN ISO 139. Textiles - Standard atmospheres for conditioning and testing, 2008.
- 18. http://www.uster.com/UI/Statistics.aspx 19. TS EN 14970. Textiles - Knitted fabrics - Determination of stitch length and yarn linear density in weft knitted fabrics, 2006.
- 20. TS EN 14971. Textiles - Knitted fabrics - Determination of number of stitches per unit length and unit area, 2006.
- 21. TS EN ISO 12127. Textiles- Fabrics- Determination of mass per unit area using small samples, 1999.
- 22. TS EN ISO 13938-2. Textiles-Bursting Properties of Fabrics, Part 2. Pneumatic method for determination of bursting strength and bursting distention, 1999.
- 23. TS EN ISO 12945-2. Textiles - Determination of fabric propensity to surface fuzzing and to pilling. Part 2: Modified Martindale method, 2002.
Typ dokumentu
Bibliografia
Identyfikator YADDA
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