A Review of wheel wear and rolling contact fatigue-Reference-Cited by-同舟云学术

A Review of wheel wear and rolling contact fatigue

Published:2007-03-01 Issue:2 Volume:221 Page:271-289
ISSN:0954-4097
Container-title:Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit
language:en
Short-container-title:Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit

Author:

Tunna J¹,Sinclair J²,Perez J³

Affiliation:

1. Transportation Technology Center Inc., Colorado, USA

2. Interfleet Technology Ltd, Derby, UK

3. Rail Technology Unit of Manchester Metropolitan University, Manchester, UK

Abstract

Railway wheels lives are limited by wear and the formation of rolling contact fatigue (RCF) damage. This review describes how the forces that cause wear and RCF on wheels are generated. It is demonstrated that shear stresses at and just below the surface are driven by forces generated during steady-state curving. Repeated applications of plastic shear stresses causes shear deformation of the material at and just below the wheel's surface. This can eventually lead to the formation and growth of surface cracks. Depending on the contact conditions, the surface cracks can develop into either wear or RCF. Tangential and normal forces, contact pressure, creepage, and the presence of fluid are important factors in determining the amount of wear and RCF. High strength wheel steels have been developed to withstand severe service loads. New materials and treatments are being developed to extend wheel life. The references quoted in this review show that RCF and wear of rails and wheels have been the subject of investigation for over 25 years. Several well-developed models exist for predicting wheel and rail wear. New models are emerging for rail RCF. These need to be further developed to be applicable to wheels.

Publisher

SAGE Publications

Subject

Mechanical Engineering

Link

http://journals.sagepub.com/doi/pdf/10.1243/0954409JRRT72

Reference12 articles.

1. Anisotropy and rolling contact fatigue of railway wheels

2. Local cyclic deformation behavior and microstructure of railway wheel materials

3. Plastic flow and shakedown of the rail surface in repeated wheel-rail contact

4. Prediction of wheel profile wear—comparisons with field measurements

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