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Innovative approach to high-speed spinning using a magnetically-elevated spinning ring

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
We introduce a new concept of ring-spinning. The model system built on the basis of this concept is capable of producing yarns at a production rate of up to 4 times that of the traditional ring-spinning system. This is a direct result of a ring rotational speed of up to 40,000 rpm. This new concept is termed 'magnetic spinning', and it principally consists of a lightweight rotor suspended magnetically inside a fixed stator; the rotor can spin freely inside the stator. The stator is equipped with four magnetic actuators that always keep the rotor in its central position. The rotor in this configuration replaces the ring and traveller in the traditional spinning system. The system's concept and control analysis are discussed in this paper.
Rocznik
Strony
113--121
Opis fizyczny
Bibliogr. 14 poz.
Twórcy
  • Textile Engineering Department, Auburn University, AL 36849, Auburn, USA
  • Textile Engineering Department, Auburn University, AL 36849, Auburn, USA
autor
  • Textile Engineering Department, Auburn University, AL 36849, Auburn, USA
  • Textile Engineering Department, Auburn University, AL 36849, Auburn, USA
Bibliografia
  • 1. Abdel-Hady, F., and Abuelenin, S. M.: “Numerical simulation of magnetic ring spinning process”, AUTEX world textiles conference, Slovenia, 2005.
  • 2. Anstett, P., Souliac, M., Rouyer, C., Gauthier, M.: “SPOT - The Very First Satellite to Use Magnetic Bearing Wheels”, 33rd IAF Congress, Paris, France 1982.
  • 3. Artzt, P.: “Compact Spinning – A True Innovation in Staple Fibre Spinning”, ITB, No. 5, PP 26-32, 1998.
  • 4. Batra, S. K., Ghosh, T. K., and Zeidman, M. I.: “An Integrated Approach to Dynamic Analisis of the Ring Spinning Process Part I: Without air Drag and Coriolis Acceleration”, Textile Res. J. 59(6), 309-317 (1989).
  • 5. Batra, S. K., Ghosh, T. K., and Zeidman, M. I.: “An Integrated Approach to Dynamic Analisis of the Ring Spinning Process Part II: With air Drag”, Textile Res. J. 59(7), 416-424 (1989).
  • 6. Bichler, U., Eckart, T.: “A Gimballed Low Noise Momentum Wheel”, 27th Aerospace Mechanisms Symposium, NASA Ames Research Centre, May 1993.
  • 7. De Barr, A. E., A Descriptive Account of yarn Tensions and Balloon Shapes in Ring Spinning, J. Textile Inst. 49, T58, 1958.
  • 8. Deussen H.: “Rotor Spinning Technology”, Book Published by Schlafhorst Inc., Charlotte, NC, U.S.A. 1993.
  • 9. Earnshaw, S.: “On the nature of molecular forces which regulate the constitution of the limiferous ether”, Trans. of the Cambridge Philosophical Society Vol. 7, 1842.
  • 10. El Mogahzy, Y. E., and Chewning, C. H., “Cotton Fibre To Yarn Manufacturing Technology: Optimizing Cotton Production By Utilizing The Engineered Fibre Selection® System”, Book Published by Cotton Incorporated (Cottoninc.com), 2001.
  • 11. Robinson, A.A.: “A Light-Weight, Low-Cost, Magnetic-Bearing Reaction Wheel for Satellite Attitude Control Applications”, ESA Journal, Vol. 6, 1982.
  • 12. Roland, J.P.: “Magnetic Bearing Wheels for Very High Pointing Accuracy Satellite Missions”, International Symposium on Magnetic Suspension Technology, Hampton, Virginia, 1991. NASA Conference Publication 3152.
  • 13. Skenderi, Z., Oreskovic, V., Peric, P., and Kalinovcic, H.: “Determining Yarn Tension in Ring Spinning”, Textile Res. J. 71 (4), 343-350, 2001.
  • 14. Studer, P.A., Allaire, E.H., Sortore, C.K.: “Low Power Magnetic Bearing Design for High Speed Rotating Machinery”, International Symposium on Magnetic Suspension Technology, Hampton, Virginia, 1991. NASA Conference Publication 3152.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-60252cd1-d1ca-4928-b0aa-e3eaa6340b02
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