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. Part-I: Basic processing of hybrid CF/PA 6 yarn spinning from virgin CF staple fibers. Textile Research Journal, DOI 0040517515612363. [10] Hengstermann, M., Abdkader, A. and Cherif, Ch. (2015). New yarn constructions from recycled carbon staple fibers and thermoplastic fibers for composite. In: Proceedings. 54. ChemiefasertagungDornbirn, Dornbirn, Austria. [11] Hengstermann, M., Raithel, N., Abdkader, A., Cherif,Ch. (2015). Spinning of staple hybrid yarn from carbon fiber wastes for lightweight constructions. Presentation / 20. Symposium Verbundwerkstoffe und

References [1] Chandrasekaran, V., Senthilkumar, P., Karthik,T.(2016). Optimization of spinning parameters influencing the characteristics of structurally modified viscose yarn. The Journal of The Textile Insititue. 107(1), 50-63. [2] Das, B., Das, A., Kothari,V.K., Fangueiro, R. (2011). Development of mathematical model to predict vertical wicking behaviour. part i: flow through yarn. Journal of the Textile Institute, 102(11), 957-970. [3] Erdumlu, N., Saricam, C.(2013). Wicking and drying properties of conventional ring- and vortex-spun cotton yarns and fabrics

References [1] Czekalski J. (2014). Modelowanie procesu rozciągania strumienia włókien w aparatach rozciągowych przędzarek. Zeszyty Naukowe PŁ, nr 1185. [2] Rutkowski J. (2011). Tenacity of cotton yarns joined during the rewinding process. Fibres & Textiles, 19(1). [3] Taher Halimi, M., Ben Hassen, M., Azzouz, B., Sakli, F. (2007). Effect of cotton waste and spinning parameters on rotor yarn quality. Journal of the Textile Institute, No. 5. [4] Min, W. (2005). Function and characteristics of autoleveller draw frame. Fibres & Textiles in Eastern Europe, No. 5. [5

References [1] Klein, W. (1997). The Technology of Short Staple Spinning, Manual of Textile Technology, 2nd ed., The Textile Institute, England. [2] Murata Machinery Ltd. (2005). Vortex Yarn guide book, Retrieved 08 24, 2005, Web site: [3] Basal G. (2003). The structure and properties of Vortex and Compact spun yarns. Dissertation. Faculty of North Carolina State University, Raleigh. Retrieved 2013, 5, 12, Web site: [4] Basal, G., Oxenham, W. (2003). Vortex Yarn vs. Air-Jet Yarn

Tayyab, M., (2004). Interaction study of staple length and fineness of cotton with ultimate yarn regularity and hairiness. Journal of Applied Sciences, 4(1), 48-52.

References [1] Klein. W., (1993) “New Spinning Systems, Short Staple Spinning Series,” Vol. V, The Textile Institute, Manchester. [2] Lord, P. R., (1971).The Structure of Open-End Spun Yarn.Textile Research Journal, 41, 778-784. [3] Nield R., (1975). Open-End Spinning, Monograph No. 1, 38-53. [4] Basu, A., (2009). Yarn structure- properties relationship. Indian Journal of Fibres and Textile Research, 34, 287-294. [5] Morton, W. E. , and Yen, K. C. , (1952) The Arrangement of Fibers in Fibro Yarns , Journal of Textile Institute, 43, T60-T60. [6] Morton, W. E

., “Selecting Cotton Bales By Spinning Consistency Index and Micronaire Using Artificial Neural Networks”, AUTEX Research Journal, 2004, 4: 1, March, pdf, (2004, accessed 1 March 2013) [6] Bedez Ute T., Research On Spinning of Short Staple Fibres by Sirospun System, Ege University Graduate School of Natural and Applied Sciences, Master of Science Thesis, 2007. [7] Schneider U., Uster Quantum 2, Application Report, Current trends to improve the yarn quality in spinning mills, The Yarn Quality Assurance System, http://www.uster. com

References [1] Arain F A, Tanwari A, Hussain T & Z A Malik, (2012). Multiple Response Optimization of Rotor Yarn for Strength, Unevenness, Hairiness and Imperfections. Polymers and Fibers, vol13, N°1, 118-122. [2] Atkinson A.C. and Donev A.N., (1992). Optimum Experimental Designs, Oxford university press, Oxford, 132-189. [3] Erol R & Sagbas A, (2009). Multiple Response Optimization of Staple-Yarn Production Process of Hairiness, Strength and Cost. Fibers and Textiles in Eastern Europe, 17, 40-42. [4] Kuo C F J, Wei H J, Huang C C & Su T L, (2010). Processing

and the effects on knitted fabric spirality. Hong Kong Polytechnic University Institute of Textiles and Clothing, Ph.D. Thesis, 215 pages. [17] Kothari, V.K., Singh, G., Roy, K., Varshney, R. (2011). Spirality of cotton plain knitted fabrics with respect to variation in yarn and machine parameters. Indian Journal of Fibre & Textile Research, 36, 227-233. [18] Çelik, P. (2006). A research on snarling tendency (yarn liveliness) of staple yarns and factors affecting this tendency. Ege University, Graduate School of Natural and Applied Sciences, Ph.D. Thesis, 180 pages

[11] Lawrence, C. A., Mohamed, S. A. (1996). Yarn and Knitting Parameters Affecting Fly During Weft Knitting of Staple Yarns. Textile Research Journal, 66(11), 694–704. Lawrence C. A. Mohamed S. A. 1996 Yarn and Knitting Parameters Affecting Fly During Weft Knitting of Staple Yarns Textile Research Journal 66 11 694 704 [12] Matukonis, A., Palaima, J., Vitkauskas, A. (1976). Material Science of Textile.- Vilnius: Mokslas, p. 424. (in Lithuanian). Matukonis A. Palaima J. Vitkauskas A. 1976 Material Science of Textile Vilnius Mokslas 424 (in Lithuanian). [13] Hearle