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Severe Plastic Deformed Zones and White Etching Layers Formed During Service of Railway Wheels

Matthias Freisinger, H. Rojacz, Andreas Trausmuth, P.H. Mayrhofer

2023Metallography Microstructure and Analysis15 citationsDOIOpen Access PDF

Abstract

Abstract The near-surface regions of rail wheels experience a complex thermo-mechanical loading, which varies along the location of the tread and causes severe changes to the microstructure. Occasionally, brittle white etching layers (WEL) are formed, representing a high risk of wheel damage. Therefore, we studied the depth-evolution of the surface-near microstructure along different regions of the tread of a wheel being ~ 200,000 km in service. The microstructural variations point toward a higher thermal loading history in the middle of the tread and predominant mechanical loading in the neighboring regions, where a severe plastic deformed microstructure with rolling contact fatigue cracks is present. Varieties of WEL-like microstructures were investigated, the presented analysis contributes to the knowledge of their microstructural characteristics and outpoints these regions in terms of potential crack initiation sites on railway wheels.

Topics & Concepts

TreadMicrostructureMaterials scienceService lifeComposite materialEtching (microfabrication)ThermalBrittlenessLayer (electronics)Natural rubberMeteorologyPhysicsRailway Engineering and DynamicsMetal Alloys Wear and PropertiesMechanical stress and fatigue analysis
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