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Free boundary of journal bearing with spiral groove in HDD

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Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In a self-sealing journal bearing with spiral grooves, the bearing gap is not actually fully filled with lubricant. Specially at the seal interfaces, the so-called free boundary between the lubricant and ambient air is formed. A free boundary does not only influence the load-capacity and stability of a bearing, more importantly, it affects the bearing dynamic sealing capability. In this paper, an analytical model and numerical procedure is developed to investigate the free boundary of a journal bearing with spiral grooves. The simulation results are discussed on how the bearing parameters may affect free boundary and its impact on the bearing leakage. The approach establishes a base for precise calculation of performance parameters and optimization design of a journal bearing with spiral grooves in HDD.
Rocznik
Strony
859--874
Opis fizyczny
Bibliogr. 11 poz. , rys., wykr.
Twórcy
autor
  • Huazhong University of Science and Technology School of Computer Science and Technology 430074, Wuhan, Hubei, CHINA
autor
  • Huazhong University of Science and Technology School of Computer Science and Technology 430074, Wuhan, Hubei, CHINA
autor
  • Huazhong University of Science and Technology School of Computer Science and Technology 430074, Wuhan, Hubei, CHINA
Bibliografia
  • [1] Bootsma J. (1975): Liquid Lubricated Spiral Groove Bearing. - Ph.D. Thesis, Technological University Delft, The Netherlands.
  • [2] Chen S.X. and Liu Z.J. (1999): Future high speed spindle and components for hard disk drives - INSIGHT, No.l, pp.26-28.
  • [3] Fan Z.L., Ni J. M., Huang Y.S., Wang J.M. and Ralph Z. (1998): Numerical simulation of hydrodynamic bearings in spindle motor. - Proceedings of the 27th Annual Symposium of IMCSD, San Jose, California, July 1998, pp. 177-183.
  • [4] Kang K., Rhim Y. and Sung K. (1996): A study of the oil-lubricated herringbone- groove journal bearing - Part 1: Numerical analysis. - ASME Journal of Tribology, vol.l 18, No. 10, pp.906-911.
  • [5] Ku P.R. (1996): Dynamic characteristics of hard disk drive spindle motors - comparison between ball bearing and hydrodynamic bearings. - ASME Journal of Tribology, vol.l 18, No.4, pp.402-406.
  • [6] Ni J.M., Li F., Fan Z.L., Lu P., Wang J.M. and Ralph Z. (1999): Optimization of HDD hydrodynamic bearing based on the Taguchi method integrated with finite element analysis simulation. - Journal of Information Storage Processing System, vol.l, pp.225-232.
  • [7] Rahman M. and Leuthold H. (1996): Computer Simulation of a Coupled Journal and Thrust Hydrodynamic Bearing using a Finite-Element Method. - Seagate Technology, Motor Design & Development Center, Scotts Valley, CA, USA.
  • [8] Swann A.C., Harrison J.C. and Talke F.E. (1996): Non-repeatable runout measurement and simulation of fluid lubrication spindle. - IEEE Transaction on Magnetics, vol.32, No.3,pp. 1727-1732.
  • [9] Zang Y. and Hatch M.R. (1996): Calculation of dynamic characteristics of coupled herringbone journal and thrust hydrodynamic bearings. - Advance in Information Storage Systems, vol.7, pp. 115-125.
  • [10] Zhu X.K., Ni J.M., Huang Y.S., Wang J.M. and Ralph Z. (1998): Finite element analysis of hydrodynamic bearings for HDD. - Proceedings of 27th Annual Symposium of IMCSD, San Jose, California, July 1998, pp. 169-176.
  • [11] Zirkelback N. and Andres L.S. (1998): Finite element analysis of herringbone groove journal bearings: a parametric study. - ASME Journal of Tribology, vol.120, No.4, pp.234-240.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPZ2-0001-0042
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