Open Access
EPJ Web of Conferences
Volume 45, 2013
EFM12 – Experimental Fluid Mechanics 2012
Article Number 01051
Number of page(s) 6
Published online 09 April 2013
  1. A. Cameron, Basic lubrication theory (1971) [Google Scholar]
  2. Y. Kang, J. L. Lee, Design for static stiffness of hydrostatic plain bearings: constant compensation. Industrial Lubrication and Tribology 63/3 (2011) [Google Scholar]
  3. H. C. Rippel, Cast Bronze Hydrostatic Bearing Design Manual (1964) [Google Scholar]
  4. M. Neal, Tribology Handbook (1973) [Google Scholar]
  5. M. K. Ghosh, B. C. Mujumdar, Dynamic stiffness and damping characteristics of compensated hydrostatic thrust bearings. ASME J. of Lubrication Technology 104 (1982) [Google Scholar]
  6. W. B. Rowe, Hydrostatic and Hybrid Bearing Design (1983) [Google Scholar]
  7. R. Bassani, B. Piccigallo, Hydrostatic Lubrication (1992) [Google Scholar]
  8. S. Yoshimoto, Y. Anno, M. Fujimora, Static characteristics of a rectangular hydrostatic thrust bearing with a self-controlled restrictor employing a floating disk. ASME J. of Tribology 115 (1993) [Google Scholar]
  9. T. A. Osman, M. Dorid, Z. S. Safar, M. O. A. Mokhtar, Experimental assessment of hydrostatic thrust bearing performance. Tribology International 29(3) (1996) [Google Scholar]
  10. M. F. Khalil, K. A. El-Shorbagy, Surface roughness effects on externally pressurized bearing performance. Wear 103(1) (1985) [Google Scholar]
  11. R. Sinhasan, S. C. Jain, Lubrication of orifice compensated flexible thrust pad bearing. Tribology 17(4) (1984) [Google Scholar]
  12. R. Sinhasan, S. C. Jain, S. C. Sharma, Orifice compensated flexible thrust pad bearings of different configuration. Trib. International 19(5) (1986) [Google Scholar]
  13. A. Van Beek, R. A. J. Van Ostayen, Analytical solution for tilted hydrostatic multi-pad thrust bearings of finite length. Tri. International 30(1) (1997) [Google Scholar]
  14. A. Van Beek, A. Segal, Numerical solution for tilted hydrostatic multi-pad thrust bearings of finite length. Trib. International 30(1) (1997) [Google Scholar]
  15. A. Van Beek, A. Segal, Rubber supported hydrostatic thrust bearings with rigid bearing surfaces. Trib. International 30(1) (1997) [Google Scholar]
  16. M. Weck, J. Henning, M. Winterschladen, Development of hydrostatic bearings with grooves structures (2011) [Google Scholar]
  17. S. C. Sharma, S. C. Jain, D. K. Bharuka, Influence of recess shape on the performance of a capillary compensated circular thrust pad hydrostatic bearing. Trib. International 35 (2002) [Google Scholar]
  18. T. Blejchař, Mat. modelování nestacionárního proudění, kavitace a akustických projevů v hydraulickém ventilu (2006) [Google Scholar]
  19. M. Kozubková, Num. modelování proudění (2008) [Google Scholar]
  20. P. Blaškovič, J. Balla, M. Dzimko, Tribológia (1990) [Google Scholar]

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