Study of Residual Stresses and Austenite Gradients in the Surface after Hard Turning as a Function of Flank Wear and Cutting Speed

This paper investigates the influence of cutting speed and flank wear on the depth profile of residual stresses, as well as the fraction of retained austenite after hard turning of quenched bearing steel 100Cr6. Residual stress and retained austenite profiles were studied for the white layer, heat-a...

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Bibliographic Details
Published in:Materials 2023-02, Vol.16 (4), p.1709
Main Authors: Mičietová, Anna, Čilliková, Mária, Čep, Róbert, Neslušan, Miroslav, Ganev, Nikolaj
Format: Article
Language:English
Subjects:
Bearing steels
Cutting parameters
Cutting speed
Cutting wear
Depth profiling
Experiments
Geometry
Hardness
Heat
Heat affected zone
Microhardness
Radiation
Residual stress
Retained austenite
Stress state
Thickness
Turning (machining)
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Summary:This paper investigates the influence of cutting speed and flank wear on the depth profile of residual stresses, as well as the fraction of retained austenite after hard turning of quenched bearing steel 100Cr6. Residual stress and retained austenite profiles were studied for the white layer, heat-affected zone thickness, and XRD sensing depth. It was found that the influence of flank wear on the white layer and heat-affected zone thickness predominates. On the other hand, residual stresses are affected the cutting speed and the superimposing contribution of flank wear. Moreover, these aspects also alter microhardness in the affected regions. The study also demonstrates that information concerning residual stresses and the austenite fraction is integrated into the white layer, and the heat-affected zone in the surface is produced by the insert of low flank wear since the XRD sensing depth is more than the thickness of the white layer. On the other hand, the pure contribution of the white layer or the heat-affected zone to residual stress and the austenite fraction can be investigated when the affected surface region is thick enough.
ISSN:1996-1944
1996-1944
DOI:10.3390/ma16041709