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An Investigation of Residual Stresses after the Turning of High-Tempered Bearing Steel

This study is focused on analysing residual stresses (RSs) after turning high-tempered bearing steel through the use of the X-ray diffraction (XRD) technique. Phase transformations expressed in terms of the near-surface white layer (WL) and the corresponding microhardness profiles are correlated wit...

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Published in:	Machines (Basel) 2024-02, Vol.12 (2), p.139
Main Authors:	Mičietová, Anna, Čilliková, Mária, Čep, Robert, Mičieta, Branislav, Uríček, Juraj, Neslušan, Miroslav
Format:	Article
Language:	English
Subjects:	Bearing steels Cutting parameters Cutting speed Cutting wear Decomposition Diffraction Geometry Hardness high-tempered steel Inserts Microhardness Phase transitions Residual stress residual stresses Steel Temperature Thermal analysis Tool wear turning Turning (machining) X-rays
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creator	Mičietová, Anna Čilliková, Mária Čep, Robert Mičieta, Branislav Uríček, Juraj Neslušan, Miroslav
description	This study is focused on analysing residual stresses (RSs) after turning high-tempered bearing steel through the use of the X-ray diffraction (XRD) technique. Phase transformations expressed in terms of the near-surface white layer (WL) and the corresponding microhardness profiles are correlated with the RSs as well as the depth of the RS profiles. Normal and shear components of RS and FWHM (full width at half maximum) of the diffraction peaks are analysed as a function of cutting insert flank wear as well as the cutting speed. It was found that the influence of tool wear prevails over cutting speed, RSs tend to shift into the compressive region with increasing tool flank wear, and the valuable shear components of RSs can be found in the near-surface region when the cutting inserts of lower flank wear are employed. The increasing flank wear also increases the depth in which the compressive RSs can be found. Furthermore, surface RSs are affected by the phase transformation process (formation of re-hardened WL) as well as the superimposing mechanical and thermal load.
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subjects	Bearing steels Cutting parameters Cutting speed Cutting wear Decomposition Diffraction Geometry Hardness high-tempered steel Inserts Microhardness Phase transitions Residual stress residual stresses Steel Temperature Thermal analysis Tool wear turning Turning (machining) X-rays
title	An Investigation of Residual Stresses after the Turning of High-Tempered Bearing Steel
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