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Serial sectioning investigation of butterfly and white etching crack (WEC) formation in wind turbine gearbox bearings

Serial sectioning investigation of butterfly and white etching crack (WEC) formation in wind turbine gearbox bearings
Serial sectioning investigation of butterfly and white etching crack (WEC) formation in wind turbine gearbox bearings
Premature wind turbine gearbox bearing failures in the form of white structure flaking (WSF) can occur in as little as 6–24 months of operation. WSF is not fully understood but is thought to be due to hydrogen release and diffusion into the bearing steel and/or transient operating conditions not fully understood. The initiation mechanisms of white etching cracks (WECs) are contested, where amongst others mechanisms, subsurface initiation at non-metallic inclusions (perhaps associated with extension of butterfly cracks) and surface crack initiation are cited. For the first time this study applies serial sectioning to map WEC networks in wind turbine gearbox bearings to elucidate WEC initiation mechanisms. A comparison is made between WEC data for inner rings of an industrial transient test gearbox bearing and a planet bearing that spalled in service. It is proposed that one mechanism of WEC formation in wind turbine gearbox bearings is due to subsurface WEC initiation from inclusions, either in a butterfly manner or non-butterfly manner; where these small WECs link together to form larger WEC networks, these eventually propagating to the surface resulting in WSF. Small size/length inclusions were found to be likely WEC initiators, therefore the data suggests that steel cleanliness standards analysing inclusion density (as opposed to maximum inclusion lengths) are more relevant in understanding butterfly/WEC initiation in wind turbine gearbox bearings. However standards used should be able to differentiate pure sulfides from sulfides+oxide encapsulations and record inclusions that are only a couple of mircometer’s in length/diameter.

rolling contact fatigue, bearings, optical microscopy, serial sectioning, butterflies, white etching cracks (wecs)
0043-1648
1573-1582
Evans, Martin-Halfdan
5f015c47-3165-4f64-8561-7c047a9d2186
Richardson, A.D.
c801a111-ed18-458e-bce8-450cc499cc74
Wang, L.
c50767b1-7474-4094-9b06-4fe64e9fe362
Wood, R.J.K.
d9523d31-41a8-459a-8831-70e29ffe8a73
Evans, Martin-Halfdan
5f015c47-3165-4f64-8561-7c047a9d2186
Richardson, A.D.
c801a111-ed18-458e-bce8-450cc499cc74
Wang, L.
c50767b1-7474-4094-9b06-4fe64e9fe362
Wood, R.J.K.
d9523d31-41a8-459a-8831-70e29ffe8a73

Evans, Martin-Halfdan, Richardson, A.D., Wang, L. and Wood, R.J.K. (2013) Serial sectioning investigation of butterfly and white etching crack (WEC) formation in wind turbine gearbox bearings. Wear, 302 (1-2), 1573-1582. (doi:10.1016/j.wear.2012.12.031).

Record type: Article

Abstract

Premature wind turbine gearbox bearing failures in the form of white structure flaking (WSF) can occur in as little as 6–24 months of operation. WSF is not fully understood but is thought to be due to hydrogen release and diffusion into the bearing steel and/or transient operating conditions not fully understood. The initiation mechanisms of white etching cracks (WECs) are contested, where amongst others mechanisms, subsurface initiation at non-metallic inclusions (perhaps associated with extension of butterfly cracks) and surface crack initiation are cited. For the first time this study applies serial sectioning to map WEC networks in wind turbine gearbox bearings to elucidate WEC initiation mechanisms. A comparison is made between WEC data for inner rings of an industrial transient test gearbox bearing and a planet bearing that spalled in service. It is proposed that one mechanism of WEC formation in wind turbine gearbox bearings is due to subsurface WEC initiation from inclusions, either in a butterfly manner or non-butterfly manner; where these small WECs link together to form larger WEC networks, these eventually propagating to the surface resulting in WSF. Small size/length inclusions were found to be likely WEC initiators, therefore the data suggests that steel cleanliness standards analysing inclusion density (as opposed to maximum inclusion lengths) are more relevant in understanding butterfly/WEC initiation in wind turbine gearbox bearings. However standards used should be able to differentiate pure sulfides from sulfides+oxide encapsulations and record inclusions that are only a couple of mircometer’s in length/diameter.

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Published date: April 2013
Keywords: rolling contact fatigue, bearings, optical microscopy, serial sectioning, butterflies, white etching cracks (wecs)
Organisations: nCATS Group

Identifiers

Local EPrints ID: 350626
URI: http://eprints.soton.ac.uk/id/eprint/350626
ISSN: 0043-1648
PURE UUID: d1d0ac08-a50f-475f-bbd5-b8450ede777d
ORCID for L. Wang: ORCID iD orcid.org/0000-0002-2894-6784
ORCID for R.J.K. Wood: ORCID iD orcid.org/0000-0003-0681-9239

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Date deposited: 08 Apr 2013 10:33
Last modified: 15 Mar 2024 03:12

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Contributors

Author: Martin-Halfdan Evans
Author: A.D. Richardson
Author: L. Wang ORCID iD
Author: R.J.K. Wood ORCID iD

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