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Rolling contact fatigue transformations in aero steels: the effect of temperature on microstructural decay

Rolling contact fatigue transformations in aero steels: the effect of temperature on microstructural decay
Rolling contact fatigue transformations in aero steels: the effect of temperature on microstructural decay

Bearing components undergo failure as a result of rolling contact fatigue (RCF), a prevalent issue in a range of applications including aero engines. RCF can be triggered by microstructural changes at the subsurface including the formation of white etching areas (WEAs), dark etching regions (DERs), and white etching bands (WEBs). For room temperature RCF, such microstructural alterations have been modelled with our recently proposed dislocation-assisted carbon migration theory, which is able to describe the occurrence of microstructural transitions reported in the literature over the last 70 years. This approach naturally incorporates temperature and rotational speed to describe microstructural decay and failure. The model is validated with the literature data available for aerospace bearings. It is shown that temperature-accelerated microstructural transitions and failure can be described with the proposed dislocation-assisted carbon migration theory. The shortcomings of this approach are outlined, and the need for new theory and experimental data is discussed.

Bearing steels, Microstructural alteration, Rolling contact fatigue
50-65
ASTM International
Liang, Xingzhong
a3a45c11-e85d-43e7-82a7-15192ec48bd2
Sykes, Finn
3d2d2d34-4acd-4a8f-af69-93f0e589ef23
Rivera-Diáz-Del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Beswick, John M.
Liang, Xingzhong
a3a45c11-e85d-43e7-82a7-15192ec48bd2
Sykes, Finn
3d2d2d34-4acd-4a8f-af69-93f0e589ef23
Rivera-Diáz-Del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Beswick, John M.

Liang, Xingzhong, Sykes, Finn and Rivera-Diáz-Del-Castillo, Pedro E.J. (2020) Rolling contact fatigue transformations in aero steels: the effect of temperature on microstructural decay. Beswick, John M. (ed.) In Bearing Steel Technologies: 12th Volume, Progress in Bearing Steel Metallurgical Testing and Quality Assurance. ASTM International. pp. 50-65 . (doi:10.1520/STP162320190073).

Record type: Conference or Workshop Item (Paper)

Abstract

Bearing components undergo failure as a result of rolling contact fatigue (RCF), a prevalent issue in a range of applications including aero engines. RCF can be triggered by microstructural changes at the subsurface including the formation of white etching areas (WEAs), dark etching regions (DERs), and white etching bands (WEBs). For room temperature RCF, such microstructural alterations have been modelled with our recently proposed dislocation-assisted carbon migration theory, which is able to describe the occurrence of microstructural transitions reported in the literature over the last 70 years. This approach naturally incorporates temperature and rotational speed to describe microstructural decay and failure. The model is validated with the literature data available for aerospace bearings. It is shown that temperature-accelerated microstructural transitions and failure can be described with the proposed dislocation-assisted carbon migration theory. The shortcomings of this approach are outlined, and the need for new theory and experimental data is discussed.

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More information

Published date: 2020
Venue - Dates: 12th Symposium on Bearing Steel Technologies: Progress in Bearing Steel Metallurgical Testing and Quality Assurance, , Denver, United States, 2019-05-15 - 2019-05-17
Keywords: Bearing steels, Microstructural alteration, Rolling contact fatigue

Identifiers

Local EPrints ID: 492254
URI: http://eprints.soton.ac.uk/id/eprint/492254
DOI: doi:10.1520/STP162320190073
PURE UUID: 8d63d4ec-b82e-422d-adbb-4743797bf9ad
ORCID for Pedro E.J. Rivera-Diáz-Del-Castillo: ORCID iD orcid.org/0000-0002-0419-8347

Catalogue record

Date deposited: 23 Jul 2024 16:34
Last modified: 24 Jul 2024 02:07

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Contributors

Author: Xingzhong Liang
Author: Finn Sykes
Author: Pedro E.J. Rivera-Diáz-Del-Castillo ORCID iD
Editor: John M. Beswick

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