The role of microstructure on the wear and rolling contact fatigue of railway steels: The performance of bainite

This study aims to describe the wear and rolling contact fatigue (RCF) behavior of microalloyed forged railway wheel steel Class D (7NbMo), with microstructures of upper bainite (UB - 350 HV0.5), lower bainite (LB - 450 HV0.5), and pearlite (PE - 350 HV0.5), against 7C steel with a tempered martensi...

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Bibliographic Details
Published in:Wear 2024-06, Vol.548-549, p.205398, Article 205398
Main Authors: Miranda, R.S., Rezende, A.B., Carvalho, A.C., Fonseca, S.T., Sinatora, A., Mei, P.R.
Format: Article
Language:English
Subjects:
Bainite
Mechanical properties
Railway wheel
RCF
Twin-disc test
Wear
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Summary:This study aims to describe the wear and rolling contact fatigue (RCF) behavior of microalloyed forged railway wheel steel Class D (7NbMo), with microstructures of upper bainite (UB - 350 HV0.5), lower bainite (LB - 450 HV0.5), and pearlite (PE - 350 HV0.5), against 7C steel with a tempered martensite microstructure (660 HV0.5) in a twin-disc tribometer. The results showed that bainite (LB and UB) exhibited greater wear resistance compared to pearlite (PE). The primary wear mechanism for all three microstructures was the fatigue wear. An analysis of the PE disc revealed continuous (single-layer) RCF cracks, which were relatively large and deep. In contrast, UB and LB cracks were discontinuous (multiple layers), thin, and smaller but more numerous (higher crack density). These characteristics indicated that bainitic microstructures also had greater resistance to RCF than pearlite did. Therefore, the combination of mechanical properties and the morphological arrangement of the microstructure led bainite to develop a shallower depth of deformed layer with a higher capacity for plastic deformation per unit volume. The greater wear and RCF performance of bainite compared to those of pearlite may be associated with how they release the accumulated deformation energy after reaching saturation in relation to volume deformation absorption: regarding bainite, the material releases energy by opening crack surfaces; conversely, regarding pearlite, it is through the detachment of large and wide cracks. [Display omitted] •Bainites exhibit superior wear resistance/RCF compared to pearlite in rolling and sliding.•Surfaces of bainitic discs UB and LB display mild peeling with reduced spacing.•Bainite possesses a greater capacity to absorb plastic deformation per volume.•Tribological performance may relate to the microstructural morphology's deformation energy release.•Bainites release energy through crack surface opening.
ISSN:0043-1648
1873-2577
DOI:10.1016/j.wear.2024.205398