论文信息 - A re-examination of rolling contact fatigue experiments by Clayton and Su with suggestions for surface durability calculations

A re-examination of rolling contact fatigue experiments by Clayton and Su with suggestions for surface durability calculations

Abstract A re-interpretation of recent RCF experiments by Clayton and Su (C&S) [Wear 200 (1996) 63] under water lubricated rolling/sliding conditions, with careful measurements of ratchetting strains, and their comparisons with experimentally observed lives, seems to confirm the validity of ratchetting failure (RF) mechanism and Kapoor’s “critical ratchet strain” as a material property. However, the complexity of modelling the ratchetting phenomenon and the uncertainties on the material’s critical ratchet strain, suggests that perhaps a more realistic alternative is the use of empirical Wohler-like life curves similarly to currently used for the contact fatigue evaluation in gears design and standards. In particular, it is found that the “pitting” fatigue limit at 107 cycles suggested by the gears standard is reasonably accurate also for the C&S experiments on various typical rail steels. Since the gears life factor suggested for gears turns out quite conservative at shorter lives, it seems a single new life factor could be suggested, at least for all pearlitic and bainitic steels tested by C&S under water lubrication.

Luciano Afferrante | Michele Ciavarella | Giuseppe Pompeo Demelio

[1] F. Franklin,et al. Computer simulation of wear and rolling contact fatigue , 2001 .

[2] K. Johnson,et al. The influence of strain hardening on cumulative plastic deformation in rolling and sliding line contact , 1989 .

[3] V. Bhargava,et al. An Elastic-Plastic Finite Element Model of Rolling Contact, Part 2: Analysis of Repeated Contacts , 1985 .

[4] K. Johnson,et al. Mode II stress intensity factors for a crack parallel to the surface of an elastic half-space subjected to a moving point load , 1985 .

[5] K. Johnson,et al. Cumulative Plastic Flow in Rolling and Sliding Line Contact , 1987 .

[6] P. Clayton,et al. Surface initiated fatigue of pearlitic and bainitic steels under water lubricated rolling/sliding contact , 1996 .

[7] R. A. Smith,et al. Fatigue in Transport: Problems, Solutions and Future Threats , 1998 .

[8] F. Franklin,et al. Surface roughness and plastic flow in rail wheel contact , 2002 .

[9] A. Kapoor. A re-evaluation of the life to rupture of ductile metals by cyclic plastic strain , 1994 .

[10] P. Clayton,et al. Ratchetting strain experiments with a pearlitic steel under rolling/sliding contact , 1997 .

[11] K. Johnson,et al. An Analysis of Plastic Deformation in Rolling Contact , 1963 .

[12] W. R. Tyfour,et al. Deterioration of rolling contact fatigue life of pearlitic rail steel due to dry-wet rolling-sliding line contact , 1996 .