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Nano-scale wear characterization of CoCrMo biomedical alloys

Nano-scale wear characterization of CoCrMo biomedical alloys
Nano-scale wear characterization of CoCrMo biomedical alloys
Low amplitude motions at the micro and the nano-scale at the femoral stem–cement interface under physiological loads can result in fretting and nano-wear on the stem surface. These are important wear processes in cemented total hip replacements as the release of metal debris and ions can trigger adverse local tissue reactions within the body, bone resorption and subsequent aseptic loosening of the femoral component resulting in the implant failure. However, the influence of the microstructure and manufacturing processes on the nano-wear behaviour of different cobalt chromium molybdenum (CoCrMo) alloys has not been studied extensively. Four CoCrMo alloys were tested under reciprocating wear conditions at the nano-scale level. Tangential friction forces, coefficient of friction and plastic deformation values were recorded. A new white-light-interferometer system was validated against atomic force microscopy and Nano Vantage Test System measurements to analyse the permanent plastic deformation caused in each of the samples. Significant differences were found in the total plastic deformation achieved by the as cast alloy compared to the forged, as cast single thermal treated and as cast double thermal treated samples. In addition thermal treated samples presented a tendency to produce a higher quantity of wear debris around the nano-wear scars. These findings indicate a possible relation between the wear resistance at the nano-scale and the manufacturing and thermal processes applied on the CoCrMo biomedical alloys.
nano-wear, single asperity contact, femoral stem–cement interface, white-light-interferometry
0301-679X
563-572
Martinez-Nogues, V.
3e674f4d-0222-43ae-8976-3ba18cca75f1
Nesbitt, J.M.
f280f866-9ee1-4b60-96d7-61d9b50b0d9c
Wood, R.
d9523d31-41a8-459a-8831-70e29ffe8a73
Cook, R.
06f8322d-81be-4f82-9326-19e55541c78f
Martinez-Nogues, V.
3e674f4d-0222-43ae-8976-3ba18cca75f1
Nesbitt, J.M.
f280f866-9ee1-4b60-96d7-61d9b50b0d9c
Wood, R.
d9523d31-41a8-459a-8831-70e29ffe8a73
Cook, R.
06f8322d-81be-4f82-9326-19e55541c78f

Martinez-Nogues, V., Nesbitt, J.M., Wood, R. and Cook, R. (2016) Nano-scale wear characterization of CoCrMo biomedical alloys. Tribology International, 93, part B, 563-572. (doi:10.1016/j.triboint.2015.03.037).

Record type: Article

Abstract

Low amplitude motions at the micro and the nano-scale at the femoral stem–cement interface under physiological loads can result in fretting and nano-wear on the stem surface. These are important wear processes in cemented total hip replacements as the release of metal debris and ions can trigger adverse local tissue reactions within the body, bone resorption and subsequent aseptic loosening of the femoral component resulting in the implant failure. However, the influence of the microstructure and manufacturing processes on the nano-wear behaviour of different cobalt chromium molybdenum (CoCrMo) alloys has not been studied extensively. Four CoCrMo alloys were tested under reciprocating wear conditions at the nano-scale level. Tangential friction forces, coefficient of friction and plastic deformation values were recorded. A new white-light-interferometer system was validated against atomic force microscopy and Nano Vantage Test System measurements to analyse the permanent plastic deformation caused in each of the samples. Significant differences were found in the total plastic deformation achieved by the as cast alloy compared to the forged, as cast single thermal treated and as cast double thermal treated samples. In addition thermal treated samples presented a tendency to produce a higher quantity of wear debris around the nano-wear scars. These findings indicate a possible relation between the wear resistance at the nano-scale and the manufacturing and thermal processes applied on the CoCrMo biomedical alloys.

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More information

Accepted/In Press date: 26 March 2015
e-pub ahead of print date: 7 April 2015
Published date: January 2016
Keywords: nano-wear, single asperity contact, femoral stem–cement interface, white-light-interferometry
Organisations: nCATS Group

Identifiers

Local EPrints ID: 388505
URI: http://eprints.soton.ac.uk/id/eprint/388505
DOI: doi:10.1016/j.triboint.2015.03.037
ISSN: 0301-679X
PURE UUID: 65ece6f4-64e6-4b7e-b7ce-1cdad53c9949
ORCID for R. Wood: ORCID iD orcid.org/0000-0003-0681-9239
ORCID for R. Cook: ORCID iD orcid.org/0000-0002-2468-5820

Catalogue record

Date deposited: 29 Feb 2016 09:09
Last modified: 15 Mar 2024 03:34

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Contributors

Author: V. Martinez-Nogues
Author: J.M. Nesbitt
Author: R. Wood ORCID iD
Author: R. Cook ORCID iD

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