Advanced search
Publication Cover
Tribology Transactions Volume 58, 2015 - Issue 5
Submit an article Journal homepage
538
Views
31
CrossRef citations to date
0
Altmetric
Original Articles

An Experimental and Theoretical Study of Hybrid Bearing Micropitting Performance under Reduced Lubrication

V. BrizmerSKF Engineering & Research Centre, 3430DTNieuwegein, The Netherlands
,
A. GabelliSKF Engineering & Research Centre, 3430DTNieuwegein, The Netherlands
,
C. VieillardSKF Engineering & Research Centre, 3430DTNieuwegein, The Netherlands
&
G. E. Morales-EspejelSKF Engineering & Research Centre, 3430DTNieuwegein, The Netherlands;Université de Lyon, INSA-Lyon, F69621, Lyon, France
Pages 829-835 | Received 25 Nov 2014, Accepted 18 Feb 2015, Published online: 09 Jul 2015

REFERENCES

  • Zaretsky, E. V. and Anderson, W. J. (1961), “Rolling Contact Fatigue Life of a Crystallized Glass Ceramic,” Journal of Basic Engineering, 83, pp 603–612.
  • Zaretsky, E. V., discussion by Chiu, Y. P. and Tallian, T. E. (1989), “Ceramic Bearings for Use in Gas Turbine Engines,” Journal of Materials Engineering, 11, pp 237–253.
  • Bisson, E. E. and Anderson, W. J. (1964), “Advanced Bearing Technology,” NASA SP-38.
  • Baumgartner, H. R. (1977), “Ceramic Bearings for Turbine Applications,” Ceramics for High Performance Applications, vol. 2, Burke, J. J., Lenoe, E. S., and Katz, R. N. (Eds.), Brook Hill Publishing: Chestnut Hill, MA, pp 423–443.
  • Baumgartner, H. R. and Weildon, W. M. (1979), “Rolling Contact Fatigue of Hot Pressed Silicon Nitride versus Surface Preparation Techniques,” Materials Science Research, 7, pp 179–193.
  • Cundill, R. T. (1993), “High Precision Silicon Nitride Balls for Bearings,” Ball Bearing Journal, 241, pp 26–32.
  • Parker, R. J., Grisaffe, S. J., and Zaretsky, E. V. (1965), “Rolling-Contact Study with Four Refractory Materials to 2000 F,” ASLE Transactions, 8, pp 208–216.
  • Parker, R. J. and Zaretsky, E. V. (1975), “Fatigue Life of High-Speed Ball Bearings with Silicon Nitride Balls,” Journal of Lubrication Technology, 97, pp 350–355.
  • Reddecliff, J. M. and Valori, R. (1976), “The Performance of a High-Speed Ball Thrust Bearing Using Silicon Nitride Balls,” Journal of Lubrication Technology, 98(4), pp 553–563.
  • Miner, J. R., Grace, W. A., and Valori, R. (1980), “A Demonstration of High-Speed Gas Turbine Bearings Using Silicon Nitride Rolling Elements,” Tribology of Ceramics, 2, pp 73–81.
  • Aramaki, H., Shoda, Y., Morishita, Y., and Sawamoto, T. (1988), “The Performance of Ball Bearings with Silicon Nitride Ceramic Balls in High Speed Spindles for Machine Tools,” Journal of Tribology, 110(4), pp 693–698.
  • Shoda, Y., Ijuin, S., Aramaki, H., Yui, H., and Toma, K. (1997), “The Performance of a Hybrid Ceramic Ball Bearing under High Speed Conditions with the Under-Race Lubrication Method,” Tribology Transactions, 40(4), pp 676–684.
  • Miner, J. R., Dell, J., Galbato, A. T., and Ragen, M. A. (1996), “F117-PW-100 Hybrid Ball Bearing Ceramic Technology Insertion,” Journal of Engineering for Gas Turbines and Power, 118, pp 434–442.
  • Cundill, R. T. (1983), “Light-Weight Material for the Rolling Elements of Aircraft Bearings,” Ball Bearing Journal, 216, pp 33–36.
  • Cento, P. and Dareing, D. W. (1999), “Ceramic Materials in Hybrid Ball Bearings,” Tribology Transactions, 42(4), pp 707–714.
  • Schrader, S. M. (1991), “Performance of a Hybrid Cylindrical Roller Bearing,” Lubrication Engineering, 48(8), pp 665–672.
  • Schrader, S. M. and Pfaffenberger, E. E. (1992), “Performance of Hybrid Ball Bearings in Oil and Jet Fuel,” Tribology Transactions, 35(3), pp 389–396.
  • Bunting, B. G. (1990), “Wear in Dry-Lubricated Silicon Nitride Angular Contact Ball Bearings,” Lubrication Engineering, 46, pp 745–751.
  • Cundill, R. T. (1993), “High Precision Silicon Nitride Balls for Bearings,” Ball Bearing Journal, 241, pp 26–32.
  • Wan, G. T. Y., Gabelli, A., and Ioannides, E. (1997), “Increased Performance of Hybrid Bearings with Silicon Nitride Balls,” Tribology Transactions, 40(4), pp 701–707.
  • Gabelli, A. and Kahlman, L. (1999), “Bearings That Heal Themselves,” Evolution Online. Available at: http:\\evolution.skf.com\bearings-that\, accessed 27 May, 2015.
  • Morales-Espejel, G. E., Gabelli, A., and Vieillard, C. (2004), “Hybrid Bearings Lubricated with Pure Refrigerant Liquid,” Turbomachinery, 32(7), pp 387–394.
  • Wallin, H. H. and Morales-Espejel, G. E. (2002), “Hybrid Bearings in Oil-Free Air Conditioning and Refrigeration Compressors” Evolution Online. Available at: http://evolution.skf.com, accessed 27 May, 2015.
  • Jacobson, B. O. and Morales-Espejel, G. E. (2006), “High Pressure Investigation of Refrigerants HFC245fa, R134a and R123,” Available at: http://docs.lib.purdue.edu/icec/1789, accessed 29 May, 2015.
  • Kahlman, L. (2013), “Oil-Flooded Screw Compressors: Predicting MTBF under Various H2S, CO2 and H2-Rich Conditions for Rolling Bearings Designed for Process Gas Use,” 2013 Gas Machinery Conference, Albuquerque, NM, 6–9 October.
  • Hager, C. H., Jr., Doll, G. L., Evans, R. D., and Shiller, P. J. (2011), “Minimum Quantity Lubrication of M50/M50 and M50/Si3N4 Tribological Interfaces,” Wear, 271, pp 1761–1771.
  • Morales-Espejel, G. E. and Brizmer, V. (2011), “Micropitting Modelling in Rolling–Sliding Contacts: Application to Rolling Bearings,” Tribology Transactions, 54(4), pp 625–643.
  • Dang Van, K., Griveau, B., and Message, O. (1989), “On a New Multiaxial Fatigue Limit Criterion: Theory and Application,” Biaxial and Multiaxial Fatigue, Brown, M. and Miller, K. (Eds.), pp 479–498, Mechanical Engineering Publications: London.
  • Wöhler, A. (1870), “⇐ber die Festigkeitsversuche mit Eisen und Stahl” [On the Strength of Iron and Steel], Zeitschrift für Bauwesen, 20, pp 73–106.
  • Palmgren, A. G. (1924), “Die Lebensdaur von Kugellagern” [Life Duration of Roller Bearings], Zeitschrift des Vereines Deutscher Ingenieure, 68(14), pp 339–341.
  • Morales-Espejel, G. E., Wemekamp, A. W., and Felix-Quinonez, A. (2010), “Micro-Geometry Effects on the Sliding Friction Transition in Elastohydrodynamic Lubrication,” Proceedings of the Institution of Mechanical Engineers - Part J: Journal of Engineering Tribology, 224, pp 621–637.
  • Brizmer, V., Pasaribu, H. R., and Morales-Espejel, G. E. (2013), “Micropitting Performance of Oil Additives in Lubricated Rolling Contacts,” Tribology Transactions, 56(5), pp 739–748.
  • Tonicello, E., Girodin, D., Sidoroff, C., Fazekas, A., and Perez, M. (2012), “Rolling Bearing Applications: Some Trends in Materials and Heat Treatments,” Materials Science and Technology, 28(1), pp 23–26.

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.