Impact of different cryogenic cooling strategies on the surface integrity of roller bearing steels in hard turning

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

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  • Rheinland-Pfälzische Technische Universität Kaiserslautern-Landau (RPTU)
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OriginalspracheEnglisch
Seiten (von - bis)1293-1304
Seitenumfang12
FachzeitschriftProduction Engineering
Jahrgang19
Ausgabenummer6
Frühes Online-Datum9 Sept. 2025
PublikationsstatusVeröffentlicht - Dez. 2025

Abstract

Due to the increasing global challenges, the demand for sustainable, resource- and energy-efficient manufacturing processes is growing. In particular, functional surfaces need increased performance due to the expected load in later use. This includes adapted surface and subsurface properties such as increased hardness to ensure resistance to given stresses. Heat treatment is typically carried out to adjust the material hardness. This means an additional process step, which is associated with additional costs and energy expenditure. Cryogenic processing offers the advantage of being able to adjust the required subsurface properties locally during the manufacturing of a workpiece. In this study, the influence of different cryogenic manufacturing technologies on the resulting surface and subsurface properties is analyzed, taking into account the importance of dimensional accuracy. A comparison is made between in-process CO2 cooling and LN2 pre-cooling.

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Impact of different cryogenic cooling strategies on the surface integrity of roller bearing steels in hard turning. / Grossmann, Felix; Prasanthan, Vannila; Albrecht, Florian et al.
in: Production Engineering, Jahrgang 19, Nr. 6, 12.2025, S. 1293-1304.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Grossmann, F, Prasanthan, V, Albrecht, F, Denkena, B, Breidenstein, B, Maier, HJ, Barton, S & Kirsch, B 2025, 'Impact of different cryogenic cooling strategies on the surface integrity of roller bearing steels in hard turning', Production Engineering, Jg. 19, Nr. 6, S. 1293-1304. https://doi.org/10.1007/s11740-025-01371-w
Grossmann, F., Prasanthan, V., Albrecht, F., Denkena, B., Breidenstein, B., Maier, H. J., Barton, S., & Kirsch, B. (2025). Impact of different cryogenic cooling strategies on the surface integrity of roller bearing steels in hard turning. Production Engineering, 19(6), 1293-1304. https://doi.org/10.1007/s11740-025-01371-w
Grossmann F, Prasanthan V, Albrecht F, Denkena B, Breidenstein B, Maier HJ et al. Impact of different cryogenic cooling strategies on the surface integrity of roller bearing steels in hard turning. Production Engineering. 2025 Dez;19(6):1293-1304. Epub 2025 Sep 9. doi: 10.1007/s11740-025-01371-w
Grossmann, Felix ; Prasanthan, Vannila ; Albrecht, Florian et al. / Impact of different cryogenic cooling strategies on the surface integrity of roller bearing steels in hard turning. in: Production Engineering. 2025 ; Jahrgang 19, Nr. 6. S. 1293-1304.
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AU - Prasanthan, Vannila

AU - Albrecht, Florian

AU - Denkena, Berend

AU - Breidenstein, Bernd

AU - Maier, Hans Jürgen

AU - Barton, Sebastian

AU - Kirsch, Benjamin

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AB - Due to the increasing global challenges, the demand for sustainable, resource- and energy-efficient manufacturing processes is growing. In particular, functional surfaces need increased performance due to the expected load in later use. This includes adapted surface and subsurface properties such as increased hardness to ensure resistance to given stresses. Heat treatment is typically carried out to adjust the material hardness. This means an additional process step, which is associated with additional costs and energy expenditure. Cryogenic processing offers the advantage of being able to adjust the required subsurface properties locally during the manufacturing of a workpiece. In this study, the influence of different cryogenic manufacturing technologies on the resulting surface and subsurface properties is analyzed, taking into account the importance of dimensional accuracy. A comparison is made between in-process CO2 cooling and LN2 pre-cooling.

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KW - Residual stress

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