http://orcid.org/0000-0002-3026-8011
References
- Basal, G., & Oxenham, W. (2006). Effect of some process parameters of the structure and properties of vortex spun yarn. Textile Research Journal, 76(6), 492–499. doi:10.1177/0040517506064253
- Bhatti, M. R. A., Tausif, M., Mir, M. A., Umar, M., & Cassidy, T. (2019). Effect of key process variables on mechanical properties of blended vortex spun yarns. The Journal of The Textile Institute, 110(6), 932–940. doi:10.1080/00405000.2018.1532784
- Eldeeb, M., & Demir, A. (2018). Optimising the production process of Rieter air jet spun yarns and a model for prediction of their strength. Fibres and Textiles in Eastern Europe, 26(1), 36–41. doi:10.5604/01.3001.0010.7794
- Eldeeb, M., & Moučková, E. (2017). Numerical simulation of the yarn formation process in Rieter air-jet spinning. The Journal of The Textile Institute, 108(7), 1219–1226. doi:10.1080/00405000.2016.1230000
- Erdumlu, N., & Ozipek, B. (2010). Effect of the draft ratio on the properties of vortex spun yarn. Fibres & Textiles in Eastern Europe, 18(3), 38–42.
- Erdumlu, N., Ozipek, B., & Oxenham, W. (2012a). Vortex spinning technology. Textile Progress, 44(3-4), 141–174. doi:10.1080/00405167.2012.739345
- Erdumlu, N., Ozipek, B., & Oxenham, W. (2012b). The structure and properties of carded cotton vortex yarns. Textile Research Journal, 82(7), 708–718. doi:10.1177/0040517511433150
- Hajská, Š. (2017). Influence of process variables of air-jet spinning machine on the mechanical-physical properties and structural parameters of yarn (Diploma thesis). Supervisor E. Moučková. Czech Republic: Technical University of Liberec.
- Internal Standard No. 22-103-01/01. (2004). Yarn packing density. Secant method. Research Center of Textile. Czech Republic: Technical University of Liberec.
- Internal standard No. 46-108-01/01. (2012). Recommended procedure for preparation of samples. Soft and hard sections. Research Center of Textile. Czech Republic: Technical University of Liberec.
- Kolčavová Sirková, B., & Mertová, I. (2013). Prediction of woven fabric properties using software Protkatex. Autex Research Journal, 13(1), 11–16. doi:10.2478/v10304-012-0017-5
- Kuthalam, S. E., & Senthilkumar, P. (2013). Effect of fibre fineness and spinning speed on polyester vortex spun yarn properties. Fibres & Textiles in Eastern Europe, 21, (5(101)), 35–39.
- Leitner, H., & Schwippl, H. (2015). Processing TENCEL®fibres. Processing of various cut staples at different delivery speed on the Rieter air-jet spinning machine using TENCEL®fibres, Rieter Machine Works Ltd, Wintherthur.
- Moučková, E., Mertová, I., Jirásková, P., Krupincová, G., & Křemenáková, D. (2015). Properties of viscose vortex yarns depending on technological parameters of spinning. Autex Research Journal, 15(2), 138–147. doi:10.2478/aut-2014-0046
- Neckář, B., Ishtiaque, S. M., & Švehlová, L. (1988). Rotor yarn structure by cross-sectional microtomy. Textile Research Journal, 58(11), 625–632. doi:10.1177/004051758805801102
- Neckář, B., & Das, D. (2018). Theory of structure and mechanics of yarns. New Delhi: Woodhead Publishing India Pvt. Ltd.
- Neckář, B., & Das, D. (2019). Computational methodology for determination of yarn twist and diameter. The Journal of The Textile Institute, 110(11), 1660–1671. doi:10.1080/00405000.2019.1611524
- Ortlek, H. G., Nair, F., Kilik, R., & Guven, K. (2008). Effect of spingle diameter and spindle working period on the properties of 100% viscose MVS yarn. Fibres & Textiles in Eastern Europe, 16(3), 17–20.
- Ortlek, H. G., & Ulku, S. (2005). Effect of some variables on properties of 100% cotton vortex spun yarn. Textile Research Journal, 75(6), 458–461. doi:10.1177/0040517505053835
- Rajamanickam, R., Hansen, S. M., & Jayaraman, S. (1998). Studies on fiber-process-structure-property relationships in air-jet spinning. part I: The effect of process and material parameters on the structure of microdenier polyester-fiber/cotton blended yarns. Journal of the Textile Institute, 89(2), 214–242. doi:10.1080/00405009808658613
- Rieter & Textile World. (2012). Spinning with an air jet. March/April 2012. Retrieved from http://www.textileworld.com/Issues/2012/March-April/Features/Spinning_With_An_Air_Jet
- Shang, S., Hu, B., Yu, C., & Pei, Z. (2016). Effect of wrapped fibre on tenacity of viscose vortex yarn. Indian Journal of Fibre and Textile Research, 41(3), 278–283.
- Soe, A. K., Takahashi, M., Nakajima, M., Matsuo, T., & Matsumoto, T. (2004). Structure and properties of MVS yarns in comparison with ring yarns and open-end rotor spun yarns. Textile Research Journal, 74(9), 819–826. doi:10.1177/004051750407400911
- Stalder, H. (2014). The Rieter manual of spinning. Volume 6 – Alternative spinning systems. Wintherthur: Rieter Machine Works Ltd.
- Tatsumori, M. (2019). Twist structure of the VORTEX® yarn. 47th Textile Research Symposium. Book of Abstract, pp. 38–39, June 17–19, 2019, Technical University of Liberec, Liberec.
- Tyagi, G. K., Sharma, D., & Salhotra, K. R. (2004). Process-structure-property relationship of polyester-cotton MVS yarns, part I: Influence of processing variables on yarn structural parameters. Indian Journal of Fiber & Textile Research, 29(4), 419–428.
- Zeng, Y. C., & Yu, C. W. (2003). Numerical simulation of air flow in the nozzle of an air-jet spinning machine. Textile Research Journal, 73(4), 350–356. doi:10.1177/004051750307300413
- Zou, Z., Cheng, L., Xi, B., Luo, Y., & Liu, Y. (2015). Investigation of fiber trajectory affected by some parameter variables in vortex spun yarn. Textile Research Journal, 85(2), 180–187. doi:10.1177/0040517513509873
- Zou, Z., Zheng, S., Cheng, L., Xi, B., & Yao, J. (2014). Effect of some variables on the fibre packing pattern in a yarn cross-section for vortex spun yarn. Fibres & Textiles in Eastern Europe, 22(2), 40–46.