http://orcid.org/0000-0003-1410-783X
References
- Babaarslan, O. (2001). Method of producing a polyester/viscose core-spun yarn containing spandex using a modified ring spinning frame. Textile Research Journal, 71(4), 367–371. doi:10.1177/004051750107100415
- Babaarslan, O., Telli, A., & Karaduman, S. (2015). Effect of microfilament yarns on the performance properties of denim fabrics. Tekstil ve Mühendis, 2(1), 7–14. doi:10.7216/130075992015229902
- Bandyopadhyay, S., Ghosh, A., & Yusuf Ali, S. (2011). Tensile fatigue, stress relaxation, and creep behaviors of worsted core spun yarns. Journal of Applied Polymer Science, 121(4), 2123–2126. doi:10.1002/app.33513
- Çelik, P., Üte, T. B., Özden, D., Comlekci, H., & Akkale, E. C. (2009). The effect of core/sheath ratio and twist amount on yarn characteristics of filament core yarns. Electronic Journal of Textile Technologies, 3(2), 29–37.
- Chattopadhyay, R., & Sinha, S. K. (2011). Studies on structural integrity of polyester-cotton friction spun yarn by cycling extension test. Fibers and Polymers, 12(2), 268–274. doi:10.1007/s12221-011-0268-0
- Demirbaş, S. (2005). Comparison of different elastomeric fibre types the physical properties (MSc thesis). Süleyman Demirel University, Turkey.
- Dhouib, A. B., El-Ghezal, S., & Cheikhrouhou, M. (2006). A study of the impact of elastane ratio on mechanical properties of cotton wrapped elastane-core spun yarns. Journal of the Textile Institute, 97(2), 167–172. doi:10.1533/joti.2005.0121
- Dubinskaite, K., & Milanus, R. (2005). Investigation of dynamic properties of PA6 and PA6.6 carpet pile yarns. Material Science (Medziagotyra), 11(3), 288–291.
- Erez, E., & Çelik, P. (2014). A research on the parameters of the affecting yarn properties of cotton-polyester rigid core-spun yarns. Journal of Textile and Apparel, 24(2), 195–201.
- Ertaş, O. G., Ünal, B. Z., & Çelik, N. (2016). Analyzing the effect of the elastane-containing dual-core weft yarn density on the denim fabric performance properties. The Journal of the Textile Institute, 107(1), 116–126. doi:10.1080/00405000.2015.1016319
- Ertekin, M., & Kırtay, E. (2015). Tensile properties of some technical core spun yarns developed for protective textiles. Journal of Textile and Apparel, 25(2), 104–110.
- Gharahaghaji, A. A., Zargar, E. N., Ghane, M., & Hossaini, A. (2010). Cluster-spun yarn – A new concept in composite yarn spinning. Textile Research Journal, 80(1), 19–24. doi:10.1177/0040517508099916
- Helali, H., Dhouib, A. B., Msahli, S., & Cheikhrouhou, M. (2012). Influence of Dorlastan® draft and yarn count on the elastic recovery of the Dorlastan® core spun yarns following cyclic test. Journal of the Textile Institute, 103(4), 378–377. doi:10.1080/00405000.2011.580542
- Hua, T., Wong, N. S., & Tang, W. M. (2018). Study on properties of elastic core-spun yarns containing a mix of spandex and PET/PTT bi-component filament as core. Textile Research Journal, 88(9), 1065–1076. doi:10.1177/0040517517693982
- Jeddi, A. A., Johari, M. S., & Merati, A. A. (1997). A study of the structural and physical properties of cotton-covered nylon filament core-spun yarns. Journal of the Textile Institute, 88(1), 12–20. doi:10.1080/00405009708658525
- Kakvan, A., Shaikhzadeh, N. S., Saidi, R. G., & Nami, M. (2007). Effects of draw ratio and elastic core yarn positioning on physical properties of elastic wool/polyester core-spun ring yarns. Journal of the Textile Institute, 98(1), 57–63. doi:10.1533/joti.2005.0194
- Kaynak, H. K., & Babaarslan, O. (2016). Effects of filament linear density on the comfort related properties of polyester knitted fabrics. Fibres and Textiles in Eastern Europe, 24(1(115)), 89–94. doi:10.5604/12303666.1172091
- Maatoug, S., Ladhari, N., & Sakli, F. (2007). Fatigue behavior of sized cotton warps. Journal of Applied Sciences, 7, 2706–2709. doi:10.3923/jas.2007.2706.2709
- Militky, J., & Ibrahim, S. (2009). Effect of textile processing on fatigue. In M. Miraftab (Ed.), Fatigue failure of textile fibres (pp. 159–163). Great Abington, Cambridge: Woodhead Publishing Limited in association with The Textile Institute.
- Nyoni, A. B., & Brook, D. (2010). The effect of cyclic loading on the wicking performance on Nylon 6.6 yarns and woven fabrics used for outdoor performance clothing. Textile Research Journal, 80(8), 720–725. doi:10.1177/0040517508094093
- Pramanik, P., & Patil, V. M. (2009). Physical characteristics of cotton/polyester core spun yarn made using ring and air-jet systems. Autex Research Journal, 9(1), 14–19.
- Qadır, M. B., Hussaın, T., Malık, M., Ahmad, F., & Jeong, S. H. (2014). Effect of elastane linear density and draft ratio on the physical and mechanical properties of core-spun cotton yarns. The Journal of the Textile Institute, 105(7), 753–759. doi:10.1080/00405000.2013.848045
- Rameshkumar, C., Rengasamy, R. S., & Anbumani, N. (2009). Studies on polyester/waste silk core-spun yarns and fabrics. Journal of Industrial Textiles, 38(3), 191–203. doi:10.1177/1528083708091065
- Sarıoğlu, E., & Babaarslan, O. (2016). A study on physical properties of microfilament composite yarns. Journal of Engineered Fibres and Fabrics, 11(3), 90–98.
- Sarıoğlu, E., & Babaarslan, O. (2017, 29–31 May). Fatigue behavior of core-spun yarns containing filament by means of cyclic dynamic loading. 17th World Textile Conference AUTEX 2017 – Textiles: Shaping the Future, Corfu Island, Greece. doi:10.1088/1757-899X/254/8/082012
- Sarıoğlu, E., Babaarslan, O., & Ertek Avcı, M. (2018). Effect of filament fineness on composite yarn residual torque. Autex Research Journal, 18(1), 7–12. doi:10.1515/aut-2016-0036
- Shanbaz, B., Nawaz, S. M., & Saeed, M. A. (2002). Technological studies on elastic core cotton covered yarn. Pakistan Journal of Applied Sciences, 2, 690–693. doi:10.3923/jas.2002.690.693
- Shanbaz, B., Nawaz, S. M., & Ali, R. (2002). Spinning performance and yarn properties of multiple filament polyester/cotton core yarn. Pakistan Journal of Applied Sciences, 2, 324–326. doi:10.3923/jas.2002.324.326
- Shanbeh, M., Hasani, H., & Manesh, F. Y. (2012). An investigation into the fatigue behavior of core-spun yarns under cyclic tensile loading. Journal of Engineered Fibers and Fabrics, 7(4), 95–103. doi:10.1177/155892501200700406
- Su, C. I., & Yang, H. Y. (2004). Structure and elasticity of fine elastomeric yarns. Textile Research Journal, 74(12), 1041–1044. doi:10.1177/004051750407401202
- Su, C. I., Maa, M. C., & Yang, H. Y. (2004). Structure and performance of elastic core-spun yarn. Textile Research Journal, 74(7), 607–610. doi:10.1177/004051750407400709
- Türksoy, H. G., Kılıç, G., Üstündağ, S., & Yılmaz, D. (2018). A comparative study on properties of dual-core yarns. Journal of the Textile Institute, 109, 1–9. doi:10.1080/00405000.2018.1534541
- Türksoy, H. G., & Yıldırım, N. (2018). Effect of process variables on the properties of dual-core yarns containing wool/elastane. Industria Textila, 69(5), 352–356.
- Vuruskan, D., Babaarslan, O., & İlhan, İ. (2011). Effect of production parameters on strength and elongation of the selected yarns containing elastane. Journal of Textile and Apparel, 21(1), 22–29.