Modelling of micro-segregation in a 1C-1.5Cr type bearing steel
Modelling of micro-segregation in a 1C-1.5Cr type bearing steel
The connection between the cleanliness of bearing steels and their reliability has been well documented and there is a wide acknowledgment in industry that the early steps in steel processing (including secondary metallurgy, casting, homogenisation heat treatments, and rolling) have a profound effect upon the inclusion characteristics within the material. There is, however, little systematic work showing the progression of how the final bearing properties are intrinsically linked to the initial steelmaking. The effect on rolling contact fatigue of chemical segregation that leads to carbide banding in bearing steels is not well understood. A Scheil-Gulliver approach was used to investigate the extent of segregation in a 100CrMnMoSi8-4-6 bearing steel on the scale of a secondary dendrite arm and the composition variations are shown in the results. A simple finite differences model to solve Fick's second law was then applied to establish how the composition distributions vary over time during a high temperature homogenisation treatment. The effect of hot rolling upon microsegregation is also investigated using electron probe micro analysis (EPMA). The impact of the microsegregation upon microstructure can be investigated using a thermodynamic approach to identifying the carbides that form in solute rich and solute depleted regions, and combining this with models for nucleation and growth kinetics. These microstructural variations can cause carbide bands that are present in rolled bearing steels and could lead to property variations on the micrometre scale and influence crack propagation along bands. Likewise, the effect of segregated regions upon large primary inclusions can be investigated in a similar way and it can be shown that manganese sulfides are only stable within solute rich regions. These large inclusions could act as stress raisers during rolling contact fatigue. From this work, a picture emerges of processing and property relationships, from initial ingot casting and through hot rolling. This may aid in identifying and quantifying the key processing parameters to control during early steel production that might improve rolling contact fatigue life.
Bearing steels, Microsegregation, Processing
54-80
Walker, Peter F.F.
4a67afb8-c873-44a1-a321-da0d8a842fc6
Kerrigan, Aidan
e0020cd0-6c2d-4a43-91a8-7a55f123098d
Green, Matthew
8a6cd1ac-cb05-49a5-bce0-17bc1912831c
Cardinal, Nina
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Connell, James
e57a4401-79db-4ccf-a29a-ce8867ec96a2
Rivera-Díaz-Del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2
2015
Walker, Peter F.F.
4a67afb8-c873-44a1-a321-da0d8a842fc6
Kerrigan, Aidan
e0020cd0-6c2d-4a43-91a8-7a55f123098d
Green, Matthew
8a6cd1ac-cb05-49a5-bce0-17bc1912831c
Cardinal, Nina
80a5c2cc-cb44-477a-bec8-f1ddb1731f4e
Connell, James
e57a4401-79db-4ccf-a29a-ce8867ec96a2
Rivera-Díaz-Del-Castillo, Pedro E.J.
6e0abc1c-2aee-4a18-badc-bac28e7831e2
Walker, Peter F.F., Kerrigan, Aidan, Green, Matthew, Cardinal, Nina, Connell, James and Rivera-Díaz-Del-Castillo, Pedro E.J.
(2015)
Modelling of micro-segregation in a 1C-1.5Cr type bearing steel.
Beswick, John M.
(ed.)
In Bearing Steel Technologies: 10th Volume, Advances in Steel Technologies for Rolling Bearings.
vol. STP 1580,
ASTM International.
.
(doi:10.1520/STP158020140104).
Record type:
Conference or Workshop Item
(Paper)
Abstract
The connection between the cleanliness of bearing steels and their reliability has been well documented and there is a wide acknowledgment in industry that the early steps in steel processing (including secondary metallurgy, casting, homogenisation heat treatments, and rolling) have a profound effect upon the inclusion characteristics within the material. There is, however, little systematic work showing the progression of how the final bearing properties are intrinsically linked to the initial steelmaking. The effect on rolling contact fatigue of chemical segregation that leads to carbide banding in bearing steels is not well understood. A Scheil-Gulliver approach was used to investigate the extent of segregation in a 100CrMnMoSi8-4-6 bearing steel on the scale of a secondary dendrite arm and the composition variations are shown in the results. A simple finite differences model to solve Fick's second law was then applied to establish how the composition distributions vary over time during a high temperature homogenisation treatment. The effect of hot rolling upon microsegregation is also investigated using electron probe micro analysis (EPMA). The impact of the microsegregation upon microstructure can be investigated using a thermodynamic approach to identifying the carbides that form in solute rich and solute depleted regions, and combining this with models for nucleation and growth kinetics. These microstructural variations can cause carbide bands that are present in rolled bearing steels and could lead to property variations on the micrometre scale and influence crack propagation along bands. Likewise, the effect of segregated regions upon large primary inclusions can be investigated in a similar way and it can be shown that manganese sulfides are only stable within solute rich regions. These large inclusions could act as stress raisers during rolling contact fatigue. From this work, a picture emerges of processing and property relationships, from initial ingot casting and through hot rolling. This may aid in identifying and quantifying the key processing parameters to control during early steel production that might improve rolling contact fatigue life.
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Published date: 2015
Additional Information:
Publisher Copyright:
Copyright © 2015 by ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959.
Venue - Dates:
10th ASTM International Symposium on Bearing Steel Technologies, , Toronto, Canada, 2014-05-06 - 2014-05-08
Keywords:
Bearing steels, Microsegregation, Processing
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Local EPrints ID: 492542
URI: http://eprints.soton.ac.uk/id/eprint/492542
ISSN: 0066-0558
PURE UUID: dc7e5498-742f-4740-9e89-14b22d7a7272
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Date deposited: 31 Jul 2024 16:47
Last modified: 01 Aug 2024 02:07
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Contributors
Author:
Peter F.F. Walker
Author:
Aidan Kerrigan
Author:
Matthew Green
Author:
Nina Cardinal
Author:
James Connell
Author:
Pedro E.J. Rivera-Díaz-Del-Castillo
Editor:
John M. Beswick
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