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Mir Mohammad Badrul Hasan, Martin Hengstermann, Rebekka Dilo, Anwar Abdkader and Chokri Cherif

, A., Hasan, M.M.B., Cherif,Ch.(2015).Development of new hybrid yarn construction from recycled carbon fibers (rCF) for high performance composites. 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

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Yuzheng Lu, Yang Wang and Weidong Gao

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

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Mohammad Hatamvand, Seyed Abbas Mirjalili, Saeid Fattahi, Tariq Bashir and Mikael Skrifvars

the Spinning Properties of Man-made Staple fibers. Textile Research Journal, 28, 819-839. [5] Audivert, R. (1974). The Relation between the Drafting Force, Draft, and Setting in the roller-drafting of staple-fiber slivers. Journal of Textile Institute, 65, 325-327. [6] Su, C.I., Lo, K.J and Lee, J.Y. (1998). Drafting Force of Fine-Denier Polyester Fibers. Textile Research Journal, 68(8), 559-563. [7] Su, C.I. and Lo, K.J. (2000). Optimum Drafting Conditions of Fine- Denier Polyester Spun Yarn. Textile Research Journal

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Eva Moučková, Iva Mertová, Petra Jirásková, Gabriela Krupincová and Dana Křemenáková

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

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Anindya Ghosh, Subhasis Das and Prithwiraj Mal

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

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Muhammad Bilal Qadir, Zulfiqar Ali Malik, Usman Ali, Amir Shahzad, Tanveer Hussain, Amir Abbas, Muhammad Asad and Zubair Khaliq

Eastern Europe, 15(4), 63-67. [17] Ishtiaque, S., Das, B., Kumar, A., and Ramamoorthy, M., (2008). Static and dynamic failure mechanisms of cotton yarns. Indian Journal of Fibre & Textile Research, 33(1), 111-118. [18] Ahmad, I., Nawaz, S. M., and 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.

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Tuba Bedez Üte and Hüseyin Kadoğlu

., Sarkar B., “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

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Hanen Ghanmi, Adel Ghith and Tarek Benameur

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

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Esin Sarıoğlu, Osman Babaarslan and Münevver Ertek Avcı

-unbalanced-plied-single/ (07.07 2016). [16] Murrels, C. (2007). Twist liveliness of spun yarns 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

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Iva Mertová, Eva Moučková, Bohuslav Neckář and Monika Vyšanská

process. Dissertation work. Technical University of Liberec (Liberec). [12] Neckar, B., Das, D. (2016): Tensile behavior of staple fiber yarns part I: theoretical models. The Journal of the Textile Institute, DOI: 10.1080/00405000.2016.1204899. [13] Meloun, M., Militky, J. (1994): Statistical treatment of experimental data. PLUS, s.r.o. (Prague)