Journal ArticleDOI
A Study of the Growth Mechanism of Lenticular Carbides in Cyclically Stressed 52100 Steel
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This article is published in Journal of Lubrication Technology.The article was published on 1970-01-01. It has received 14 citations till now.read more
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Plastic deformation and sliding friction of metals
David A. Rigney,J.P. Hirth +1 more
TL;DR: In this article, a new model for the source of friction during the steady-state sliding of metals is described, focusing on the plastic work done in the near-surface region, described in terms of work hardening, recovery and the microstructure existing during steady state sliding.
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Further understanding of rolling contact fatigue in rolling element bearings - A review
TL;DR: In this article, the authors provide an overview of such alterations, their properties, formation mechanisms and impact on bearing failure, as well as how operating conditions such as pressure, temperature and running time impact them during RCF.
Journal ArticleDOI
Electron microscopy investigations of microstructural alterations due to classical Rolling Contact Fatigue (RCF) in martensitic AISI 52100 bearing steel
Viktorija Šmeļova,Viktorija Šmeļova,Alexander Schwedt,Ling Wang,Walter Holweger,Joachim Mayer +5 more
TL;DR: In this article, a model of the sequence of microstructure alterations during RCF is proposed based on the findings of the combined approach, which is able to give detailed insight in the plasticity-induced transformation and degradation mechanisms during high-stress RCF.
Journal ArticleDOI
Microstructural Alterations in Bearing Steels under Rolling Contact Fatigue Part 1—Historical Overview
TL;DR: In this paper, a J2-based elastic-plastic finite element model coupled with a carbon diffusion model is developed that directionally predicts the directionality of white etching bands.
Journal ArticleDOI
On white etching band formation in rolling bearings
I. A. Polonsky,Leon M. Keer +1 more
TL;DR: In this paper, a new physical concept of white etching band (WEB) formation is introduced, which is based on diffusional outflow of dissolved carbon from WEBs, primarily caused by cyclic stress induced release of carbon segregated in the form of dislocation atmospheres, plays a fundamental role in WEB formation.