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Tribology Transactions Volume 57, 2014 - Issue 4
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Original Articles

Relation between Residual and Hoop Stresses and Rolling Bearing Fatigue Life

Fred B. OswaldNASA Glenn Research Center, Cleveland, Ohio, 44135
,
Erwin V. ZaretskyNASA Glenn Research Center, Cleveland, Ohio, 44135
&
Joseph V. PoplawskiJ.V. Poplawski & Associates, Bethlehem, Pennsylvania, 18018
Pages 749-765 | Received 25 Oct 2012, Accepted 05 Mar 2014, Published online: 09 Jun 2014

References

  • Zaretsky, E.V. (Ed.). (1999), STLE Life Factors for Rolling Bearings, STLE SP–34, 2nd ed., Society of Tribologists and Lubrication Engineers, Park Ridge, IL.
  • Sadeghi, F., Jalalahmadi, B., Slack, T.S., Raje, N., and Arakere, N.K. (2009), “A Review of Rolling-Contact Fatigue,” Journal of Tribology, 131(4), . Art. 041403.
  • Lundberg, G. and Palmgren, A. (1947), “Dynamic Capacity of Rolling Bearings,” Acta Polytech, Mechanical Engineering Series, 1(3).
  • Lundberg, G. and Palmgren, A. (1952), “Dynamic Capacity of Roller Bearings,” Handlingar Proceedings, . No. 210, The Royal Swedish Academy of Engineering Sciences, Stockholm, Sweden.
  • ANSI/ABMA-9:1990 (R2000). (2000), Load Ratings and Fatigue Life for Ball Bearings, American Bearing Manufacturers Association: Washington, DC.
  • ANSI/ABMA-11:1990 (R2008). (2008), Load Ratings and Fatigue Life for Roller Bearings, American Bearing Manufacturers Association: Washington, DC.
  • International Organization for Standardization. (2007), Rolling Bearings—Dynamic Load Ratings and Rating Life, . ISO 281:2007, International Organization for Standardization: Geneva.
  • International Organization for Standardization. (2000), Rolling Bearings—Dynamic Load Ratings and Rating Life, Amendment 2: Life Modification Factor aXYZ, . ISO 281:1990, International Organization for Standardization: Geneva.
  • Bamberger, E.N. and Kroeger, D.J. (1984), “Rolling Element Fatigue Life of a Carburized Modified M-50 Bearing Steel,” . NASA CR-168295.
  • Parker, R.J. and Zaretsky, E.V. (1972), “Reevaluation of the Stress-Life Relation in Rolling-Element Bearings,” . NASA TN D-6745.
  • Jalalahmadi, B. and Sadeghi, F. (2009), “A Voronoi Finite Element Study of Fatigue Life Scatter in Rolling Contacts,” Journal of Tribology, 131, pp 1–15.
  • Kotzalas, M. (2001), “A Theoretical Study of Residual Stress Effects on Fatigue Life Prediction,” Tribology Transactions, 44(4), pp 609–614.
  • Rosado, L., Forster, N.H., and Thompson, K. (2010), “Rolling Contact Fatigue Life and Spall Propagation Characteristics of M-50, M-50 NiL and 52100 Bearing Materials: Part I—Experimental Results,” Tribology Transactions, 53, pp 2941
  • Townsend, D.P. and Bamberger, E.N. (1991), “Surface Fatigue Life of Carburized and Hardened M-50 NiL and AISI 9310 Spur Gears and Rolling-Contact Test Bars,” Journal of Propulsion and Power, 7(4), pp 642–649.
  • Oswald, F.B., Zaretsky, E.V., and Poplawski, J.V. (2009), “Interference-Fit Life Factors for Roller Bearings,” Tribology Transactions, 52(4), pp 415–426.
  • Oswald, F.B., Zaretsky, E.V., and Poplawski, J.V. (2011), “Interference-Fit Life Factors for Ball Bearings,” Tribology Transactions, 54(1), pp 1–20.
  • Zaretsky, E.V., Poplawski, J.V., and Peters, S.M. (1996), “Comparison of Life Theories for Rolling-Element Bearings,” Tribology Transactions, 39(2), pp 237–247, . 501–503.
  • Juvinall, R.C. (1967), Engineering Considerations of Stress Strength and Strain, McGraw Hill: New York.
  • Shimizu, S., Tsuchiya, K., and Tosha, K. (2009), “Probabilistic Stress-Life (P-S-N) Study on Bearing Steel Using Alternating Torsion Life Test,” Tribology Transactions, 52 (6), pp 807–816.
  • Zaretsky, E.V. (2010), “Rolling Bearing Life Prediction, Theory, and Application,” Recent Developments in Wear Prevention, Friction and Lubrication, Nikas, G.K. (Ed.), . pp 45–136, Research Signpost, Kerala, India.
  • Zaretsky, E.V., Anderson, W.J., and Parker, R.J. (1962), “The Effect of Contact Angle on Rolling-Contact Fatigue and Bearing Load Capacity,” ASLE Transactions, 5(1), pp 210–219.
  • Townsend, D.P., Bamberger, E.N., and Zaretsky, E.V. (1975), “Comparison of Pitting Fatigue Life of Ausforged and Standard Forged AISI M-50 and AISI 9310 Spur Gears,” . NASA-TN-D-8030.
  • Johnson, L.G. (1964), The Statistical Treatment of Fatigue Experiments, Elsevier: Amsterdam.
  • Vlcek, B.L. and Zaretsky, E.V. (2011), “Rolling-Element Fatigue Testing and Data Analysis—A Tutorial,” Tribology Transactions, 54(2), pp 523–541.
  • Poplawski, J.V., Rumbarger, J.H., Peters, S.M., Flower, R., and Galaitis, H. (2002), “Advanced Analysis Package for High Speed Multibearing Shaft Systems: COBRA-AHS,” . Final report, . NASA Contract NAS3–00018.
  • American Bearing Manufacturers Association. (2008), “Radial Bearings of Ball, Cylindrical Roller and Spherical Roller Types—Metric Design,” The American Bearing Manufacturers Association: Washington, DC.
  • Jones, A.B. (1946), Analysis of Stresses and Deflections, Vol. 1, Bristol, CT: New Departure Division, G.M.C.
  • Zaretsky, E.V. (1997), “Rolling Bearing and Gear Materials,” Tribology for Aerospace Applications, Zaretsky, E.V. (Ed.), pp 325–451, Society of Tribologists and Lubrication Engineers: Park Ridge, IL.
  • Johnston, G.B., Anderson, T., Amerongen, E.V., and Voskamp, A., (1982), “Experience of Element and Full-Bearing Testing of Materials Over Several Years,” Rolling Contact Fatigue Testing of Bearing Steels, Hoo, J.J. C. (Ed.), pp 190–195, American Society for Testing and Materials: Philadelphia.
  • Voskamp, A.P. and Mittemeijer, E.J. (1997), “State of Residual Stress Induced by Cyclic Rolling Contact Loading,” Material Science and Technology, 13, pp 430–438.
  • Gentile, A.J., Jordan, E.F., and Martin, A.D. (1965), “Phase Transformations in High-Carbon, High-Hardness Steels Under Contact Loads,” AIME Transactions, 233(6), pp 1085–1093.
  • Bush, J.J., Grube, W.L., and Robinson, G.H. (1962), “Microstructural and Residual Stress Changes in Hardened Steel due to Rolling Contact,” Rolling Contact Phenomena, Bidwell, J.B. (Ed.), pp 365–399, Elsevier: New York.
  • Muro, H. and Tsushima, N. (1970), “Microstructrual Microhardness and Residual Stress Changes Due to Rolling Contact,” Wear, 15, pp 309–330.
  • Zhu, D., Wang, F., Cai, Q., Zheng, M., and Cheng, Y. (1985), “Effect of Retained Austenite on Rolling Element Fatigue and Its Mechanism,” Wear, 105, pp 223–234.
  • Jones, A.B. (1947), “Metallographic Observations of Ball Bearing Fatigue Phenomena,” Symposium on Testing of Bearings, ASTM STP 70-EB, pp 35–52, American Society for Testing and Materials, Philadelphia.
  • Carter, T.L. (1960), “A Study of Some Factors Affecting Rolling-Contact Fatigue Life,” . NASA TR R-60.
  • Parker, R.J. and Zaretsky, E.V. (1972), “Reevaluation of the Stress-Life Relation in Rolling-Element Bearings,” . NASA TN D-6745.
  • Lorosch, H.K. (1982), “Influence of Load on the Magnitude of the Life Exponent for Rolling Bearings,” Rolling Contact Fatigue Testing of Bearing Steels, ASTM STP-771, Hoo, J.J. C. (Ed.), pp 275–292, American Society for Testing and Materials, Philadelphia.
  • Zwirlein, O. and Schlicht, H. (1982), “Rolling Contact Fatigue Mechanisms Accelerated Testing Versus Field Performance,” Rolling Contact Fatigue Testing of Bearing Steels, ASTM STP-771, Hoo, J.J. C. (Ed.), pp 358–379, American Society for Testing and Materials, Philadelphia.
  • Palmgren, A. (1945), Ball and Roller Bearing Engineering, . 1st ed., Palmgren, G. and Ruley, B. (Trans.), SKF Industries, Philadelphia.
  • Vlcek, B.L., Hendricks, R.C., and Zaretsky, E.V. (2003), “Determination of Rolling-Element Fatigue Life From Computer Generated Bearing Tests,” Tribology Transactions, 46(4), pp 479–493.
  • Zaretsky, E.V., Anderson, W.J., and Parker, R.J. (1962), “The Effect of Contact Angle on Rolling-Contact Fatigue and Bearing Load Capacity,” ASLE Transactions, 5(1), pp 210–219.

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