Sub-surface characterisation of tribological contact zone of metal hip prostheses
Sub-surface characterisation of tribological contact zone of metal hip prostheses
Many metal on metal joint failures have been associated with adverse local tissue
reactions due to the response of the body to wear debris and corrosion products, released from the bearing surface or the taper interface. Both a carbonaceous layer and an oxide film are reported on the CoCrMo metal joints, which play important roles in the wear resistance of the material. However, there is a lack of quantitative data on the structure and distribution of the carbonaceous layer and the oxide film. The current work provides a detailed investigation of the surface damage on retrieved CoCrMo taper interfaces. In addition, systematic differences in the starting surface structure of biomedical CoCrMo were studied through a comparison of a standard mechanical polished (MP) and an electropolished (EP) surface after reciprocating test. Site-specific FIB/TEM cross-sections show the evidence of the carbonaceous layer and the oxide film on both CoCrMo taper interfaces and MP, EP CoCrMo, ranging from 5 -500 nm depending on the location. The amorphous carbonaceous layer exhibits a π * peak in the EEL spectra, with trace of Ca and N. The oxide film on the taper interfaces has a porous texture and HRTEM indicates chromium oxide nano-crystals in an amorphous background, however, only a very thin oxide film (~ 2 nm) exists on MP and EP CoCrMo after reciprocating test.
Zeng, P.
0fef2707-5af1-442d-bc30-544bfc78f557
Sharp, J.
83487263-99d6-4cf6-a43f-e0a16a46b879
Rana, A.
800a7b85-3ac6-430f-88e0-2fb36eb7a74f
Thompson, R.
1340c78a-5b3c-4f92-982b-3366773e3861
Rainforth, W.M.
7226983c-4ca1-4f0a-8191-02e3424dc98f
Cook, R.B.
06f8322d-81be-4f82-9326-19e55541c78f
2015
Zeng, P.
0fef2707-5af1-442d-bc30-544bfc78f557
Sharp, J.
83487263-99d6-4cf6-a43f-e0a16a46b879
Rana, A.
800a7b85-3ac6-430f-88e0-2fb36eb7a74f
Thompson, R.
1340c78a-5b3c-4f92-982b-3366773e3861
Rainforth, W.M.
7226983c-4ca1-4f0a-8191-02e3424dc98f
Cook, R.B.
06f8322d-81be-4f82-9326-19e55541c78f
Zeng, P., Sharp, J., Rana, A., Thompson, R., Rainforth, W.M. and Cook, R.B.
(2015)
Sub-surface characterisation of tribological contact zone of metal hip prostheses.
Journal of Physics: Conference Series, 644, [012029].
(doi:10.1088/1742-6596/644/1/012029).
Abstract
Many metal on metal joint failures have been associated with adverse local tissue
reactions due to the response of the body to wear debris and corrosion products, released from the bearing surface or the taper interface. Both a carbonaceous layer and an oxide film are reported on the CoCrMo metal joints, which play important roles in the wear resistance of the material. However, there is a lack of quantitative data on the structure and distribution of the carbonaceous layer and the oxide film. The current work provides a detailed investigation of the surface damage on retrieved CoCrMo taper interfaces. In addition, systematic differences in the starting surface structure of biomedical CoCrMo were studied through a comparison of a standard mechanical polished (MP) and an electropolished (EP) surface after reciprocating test. Site-specific FIB/TEM cross-sections show the evidence of the carbonaceous layer and the oxide film on both CoCrMo taper interfaces and MP, EP CoCrMo, ranging from 5 -500 nm depending on the location. The amorphous carbonaceous layer exhibits a π * peak in the EEL spectra, with trace of Ca and N. The oxide film on the taper interfaces has a porous texture and HRTEM indicates chromium oxide nano-crystals in an amorphous background, however, only a very thin oxide film (~ 2 nm) exists on MP and EP CoCrMo after reciprocating test.
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Published date: 2015
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Local EPrints ID: 448740
URI: http://eprints.soton.ac.uk/id/eprint/448740
ISSN: 1742-6596
PURE UUID: 3ce9eb11-0a65-45e7-8292-2fc6db852356
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Date deposited: 04 May 2021 16:39
Last modified: 17 Mar 2024 03:18
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Contributors
Author:
P. Zeng
Author:
J. Sharp
Author:
A. Rana
Author:
R. Thompson
Author:
W.M. Rainforth
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