Discussion: “A New Approach for Fatigue Damage Modeling of Subsurface-Initiated Spalling in Large Rolling Contacts” (Walvekar, A. A., Paulson, N., Sadeghi, F., Weinzapfel, N., Correns, M., and Dinkel, M., 2016, ASME J. Tribol. 139(1), p. 011101)

[+] Author and Article Information
Michael Lewis

RGL Associates Limited,
Cheshire CW9 6PB, UK

Contributed by the Tribology Division of ASME for publication in the JOURNAL OF TRIBOLOGY. Manuscript received July 12, 2016; final manuscript received September 2, 2016; published online November 22, 2016. Editor: Michael Khonsari.

J. Tribol 139(3), 035501 (Nov 22, 2016) (1 page) Paper No: TRIB-16-1215; doi: 10.1115/1.4034637 History: Received July 12, 2016; Revised September 02, 2016

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Walvekar, A. A. , Paulson, N. , Sadeghi, F. , Weinzapfel, N. , Correns, M. , and Dinkel, M. , 2016, “ A New Approach for Fatigue Damage Modelling of Sub-Surface Initiated Spalling in Large Rolling Contacts,” ASME J. Tribol., 139(1), p. 011101. [CrossRef]
Raje, N. , and Sadeghi, F. , 2009, “ Statistical Numerical Modelling of Sub-Surface Initiated Spalling in Bearing Contacts,” Proc. IMechE, Part J, 223(6), pp. 849–858. [CrossRef]
Styri, H. , 1951, “ Fatigue Strength of Ball Bearing Races and Heat-Treated 52100 Steel Specimens,” Proc. ASTM, 51, pp. 682–700.
Harris, T. , and Barnsby, R. , 2001, “ Life Ratings for Ball and Roller Bearings,” Proc. IMechE, Part J, 215(6), pp. 577–595. [CrossRef]





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