Overview
ABSTRACT
The operation and reliability of contacts between elements of mechanisms are at the heart of tribology. In heavily loaded contacts, in the so-called "elastohydrodynamic" regime, such as those encountered in bearings, gears and cam and push shafts, the intensity of pressure and temperature can cause significant surface damage. This article focuses on surface fatigue via the tribomechanical modeling of these contacts and allows for the assessment of acceptable limits of operational parameters.
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Read the articleAUTHORS
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Louis FLAMAND: Professor at the Institut National des Sciences Appliquées de Lyon, - Contact and Structure Mechanics Laboratory – UMR CNRS 5259
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Philippe SAINSOT: Senior lecturer at the Institut National des Sciences Appliquées de Lyon, - Contact and Structure Mechanics Laboratory – UMR CNRS 5259
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Ton LUBRECHT: Professor at the Institut National des Sciences Appliquées de Lyon, - Contact and Structure Mechanics Laboratory – UMR CNRS 5259
INTRODUCTION
Industrial mechanisms use parts in relative motion, usually linked by hydrostatic or hydrodynamic bearings, ball or roller bearings, gears, or cams and plungers. While the performance of these mechanisms depends on global concepts such as dynamics and elasticity, their operation and reliability depend on local concepts of tribology or contact mechanics. Indeed, the stresses generated by contact between elements in relative motion induce stress and temperature fields in the "skin" of these elements which, when compared with the permissible limits for materials, can be the cause of damage. The aim of this article is to define the criteria for analyzing the severity of contact operation and the risk of surface damage. This is an important issue, both from an industrial and a scientific point of view. Indeed, most mechanisms use contacts in their connections, and damage to these contacts is still a major handicap to their reliability. Moreover, modeling their operation and degradation is a recent field whose multi-disciplinary aspects make it a very open sector.
The scope of this study is limited to elastohydrodynamic contacts, i.e. those in which the contact pressure is high, of the order of magnitude of the elastic behavior limits of materials. These include bearings, gears and cams, but exclude bearings.
First, the families of damage will be presented, then, based on mechanical concepts, the operating parameters of these contacts will be defined, and finally certain limits will be established.
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KEYWORDS
lubrication | surface damage | surface fatigue | contact mechanics | tribology | mechanics
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Friction, wear and lubrication
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Surface fatigue
Bibliography
General works
Standards
- Roulements. Charges dynamiques de bases et durée nominale - ISO 281 :2007 -
- Notes explicatives sur la norme ISO 281 - ISO/FR 1281-1 :2008 -
- Calculating the load capacity of spur and helical gears – Part 2: Calculation of contact resistance - IOS 6326-2 :2006 -
- Calculating the micropitting load capacity of spur and helical gears – Part 2: Calculation examples (in preparation) - ISO TR 15144-2 -
Events
Leeds-Lyon Symposium on Tribology
Journées Internationales Francophones de Tribologie
Directory
Lyon National Institute of Applied Sciences (INSA)
Jean d'Alembert building
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F69621 VILLEURBANNE CEDEX
École Centrale de Lyon
36, avenue Guy de Collongue
F-69134 Ecully cedex
University of Poitiers, UFR Sciences, SP2MI
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