Tytuł artykułu
Autorzy
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
Abstrakty
The paper presents the approach to analyse of reaction forces and contact pressure for ring-traveller system in twisting machine. The theory of the ballooning yarn has been adapted for the calculation of reactions, and the motion equation is developed for traveller with two reaction forces. The components of normal reaction forces are analyzed for system with free balloon and control one. The effect of the balloon control ring is shown to be significant, reducing the reaction forces of traveller or increasing the speed of spindle. Contact pressure generated between the ring and the traveller is analyzed using Hertzian contact theory. The article also presents the recommendations for optimization of the traveller shape to increase its service life.
Czasopismo
Rocznik
Tom
Strony
268--276
Opis fizyczny
Bibliogr. 17 poz.
Twórcy
autor
- Technical University of Liberec, Department of Textile Machine Design, Studentska 2, 461 17 Liberec, Czech Republic, tel. +420485353171
autor
- Technical University of Liberec, Department of Textile Machine Design, Studentska 2, 461 17 Liberec, Czech Republic, tel. +420485353171
Bibliografia
- [1] Fraser W.B., Farnell L. & Stump D.M. (1995). The effect of a slub on the stability of the ring-spinning balloon. Journal Textile Institute, 86 (4), pp. 610-634.
- [2] Lisini G., Toni P., Quilghini D. & Campedelli G. (1992). A comparison of stationary and non-stationary mathematical models for ring-spinning process. Journal of Textile Institute, 83(4), pp. 550-559.
- [3] Abdel-hady F., El Mogahzy Y., AbuElenin S. & Abdel-Kader R. (2006). Innovative approach to high-speed spinning using a magnetically-elevated spinning ring. AUTEX Research Journal, 6(3), pp. 113-121.
- [4] Jang S.H. (2010).A Study on the Rotating Ring Using Air Bearing in Yarn Manufacturing Process. Journal of the Korean Society of Machine Tool Engineers, 19(5), pp. 622-630.
- [5] Sparing M., Hossain M., Berger D., Berger A., Abdkader A., Fuchs G., Cherif C. & Schultz L. (2015). Superconducting Magnetic Bearing as Twist Element in Textile Machines. IEEE Transactions on Applied Superconductivity, 25(3).
- [6] Batra S.K., Ghosh T.K. & Ziedman M.I. (1989). An integrated approach to dynamic analysis of the ring spinning process, Part I: Without air drag and Coriolis acceleration. Textile Research Journal, 59, pp. 309-317.
- [7] HossainM., Telke C., Abdkader A.,Cherif C. & Beitelschmidt M. Mathematical modeling of the dynamic yarn path depending on spindle speed in a ring spinning process. Textile Research Journal, 0(00), 1-11, DOI: 10.1177/0040517515606355.
- [8] Palaniswamy K. & Mohamed P. (2005). Yarn twisting. AUTEX Research Journal, 5(2).
- [9] Batra S.K., Ghosh T.K., Ziedman M.I., (1989). An integrated approach to dynamic analysis of the ring spinning process, Part II: With air drag and Coriolis acceleration. Textile Research Journal, 59, pp. 416-424.
- [10] Fraser W. (1993). The dynamic of ballooning yarn in ring spinning and two-for-one twisting. In: Proceedings of IV Polish Conference on the Mechanics of Textile and Crane Machines, Lodz, pp. 61-64.
- [11] Lisini G., Nerli G. & Rissone P. (1981). Determination of balloon surface in textile machine. Journal of Engineering, 103, pp. 424-430.
- [12] Król B. & Przybył K. (2002). Influence of yarn kind on the dynamic of the twisting-and-winding system of the ring spinning machine. AUTEX Research Journal, 2(3).
- [13] Kothari V.K. & Leaf G.A. (1979). The unwinding of yarn from packages, Part I: Theory of yarn unwinding. Journal of Textile Institute, 70(3), pp. 89-95.
- [14] Popov S.G., et al. (1962). Aerodinamičeskoe soprotivlenie tekstilnych nitej. Tekstilnaja promyšlennosť, 22(4).
- [15] Migušov I.I. (1980). Mechanika Tekstilnoj Niti i Tkani. Moskva.
- [16] Beran J. (1999). Optimisation of the balloon control ring position for the twisting machines. In: Proceedings of conference on the Utilization of the New Knowledge in the Engineering Practice, Trencin, pp. 28-31.
- [17] Johnson K. (1985). Contact mechanics. 1st ed. Cambridge: Cambridge University Press, xi, p. 452, ISBN 05-212- 5576-7.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-5fa52b3d-bfd0-4823-8f08-88441dd2bccd