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The effects of proteins and pH on tribo-corrosion performance of cast CoCrMo: a combined electrochemical and tribological study

The effects of proteins and pH on tribo-corrosion performance of cast CoCrMo: a combined electrochemical and tribological study
The effects of proteins and pH on tribo-corrosion performance of cast CoCrMo: a combined electrochemical and tribological study
Cast CoCrMo (F-75) based metal-on-metal (MOM) hip resurfacing implants are an increasing option for younger and more active patients as they are less invasive to the human body. However, symptoms such as inflammation, tissue necrosis and metal sensitivity have been reported for some patients with MOM joints, which may be associated with the liberated metal debris and the elevated metal ion levels from such joints. Therefore, there is a requirement to assess the tribocorrosion performance of the CoCrMo alloy in physiological environments. In this study, the wear corrosion of cast CoCrMo, more specifically, sliding wear corrosion and abrasive wear corrosion (using ?4 ?m SiC abrasive particles) have been investigated using a modified ball cratering rig with a three-electrode electrochemical cell. The concentration effects of proteinaceous material (25 and 50% bovine serum) and pH levels, i.e. pH 4·0 (the pH for an infected joint area) and pH 7·4 (the normal pH for a healthy joint) on the tribo-corrosion performance of the alloy are explored. Electrochemical impedance spectroscopy and X-ray photoelectron spectroscopy have been deployed to study the protein adsorption/corrosion of the alloy under static, non-abrasive conditions, whereas in situ electrochemical current noise measurements were employed to quantify the mechanoelectrochemical mechanisms present in the tribocorrosion of the alloy under dynamic conditions. In general, protein adsorption was found to be dependent on pH and protein concentration. Protein adsorption in turn influenced the overall tribocorrosion performance of the CoCrMo alloy, including the in situ electrochemical current noise, the specific wear rates, as well as the wear scar morphologies. The presence of bovine serum enhanced the separation of the bearing surfaces and for the sliding wear corrosion the wear rate was markedly reduced. However, the bovine serum appeared to increase the abrasive particle entrainment and lead to accelerated wear in the presence of abrasive particles (abrasive wear). For the more acidic physiological environment, in comparison to pH 7·4, higher corrosion rates occurred under wear corrosion conditions leading to increased metal ion release. Consequently, the proteins and the pH level of hip joint environments play a significant role in the tribocorrosion performance of the cast CoCrMo and a discussion of the combined wear and corrosion mechanisms will be presented.
effects, proteins, pH, tribo-corrosion, performance, cast, CoCrMo, electrochemical, COCRMO, TRIBOCORROSION, PROTEIN ADSORPTION, ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY
1751-5831
150-160
Sun, D.
ccee3ca1-d1bb-46a7-b0a9-438700125b89
Wharton, J.A.
965a38fd-d2bc-4a19-a08c-2d4e036aa96b
Wood, R.J.W.
d9523d31-41a8-459a-8831-70e29ffe8a73
Sun, D.
ccee3ca1-d1bb-46a7-b0a9-438700125b89
Wharton, J.A.
965a38fd-d2bc-4a19-a08c-2d4e036aa96b
Wood, R.J.W.
d9523d31-41a8-459a-8831-70e29ffe8a73

Sun, D., Wharton, J.A. and Wood, R.J.W. (2008) The effects of proteins and pH on tribo-corrosion performance of cast CoCrMo: a combined electrochemical and tribological study. Tribology - Materials, Surfaces & Interfaces, 2 (3), 150-160. (doi:10.1179/175158309X408315).

Record type: Article

Abstract

Cast CoCrMo (F-75) based metal-on-metal (MOM) hip resurfacing implants are an increasing option for younger and more active patients as they are less invasive to the human body. However, symptoms such as inflammation, tissue necrosis and metal sensitivity have been reported for some patients with MOM joints, which may be associated with the liberated metal debris and the elevated metal ion levels from such joints. Therefore, there is a requirement to assess the tribocorrosion performance of the CoCrMo alloy in physiological environments. In this study, the wear corrosion of cast CoCrMo, more specifically, sliding wear corrosion and abrasive wear corrosion (using ?4 ?m SiC abrasive particles) have been investigated using a modified ball cratering rig with a three-electrode electrochemical cell. The concentration effects of proteinaceous material (25 and 50% bovine serum) and pH levels, i.e. pH 4·0 (the pH for an infected joint area) and pH 7·4 (the normal pH for a healthy joint) on the tribo-corrosion performance of the alloy are explored. Electrochemical impedance spectroscopy and X-ray photoelectron spectroscopy have been deployed to study the protein adsorption/corrosion of the alloy under static, non-abrasive conditions, whereas in situ electrochemical current noise measurements were employed to quantify the mechanoelectrochemical mechanisms present in the tribocorrosion of the alloy under dynamic conditions. In general, protein adsorption was found to be dependent on pH and protein concentration. Protein adsorption in turn influenced the overall tribocorrosion performance of the CoCrMo alloy, including the in situ electrochemical current noise, the specific wear rates, as well as the wear scar morphologies. The presence of bovine serum enhanced the separation of the bearing surfaces and for the sliding wear corrosion the wear rate was markedly reduced. However, the bovine serum appeared to increase the abrasive particle entrainment and lead to accelerated wear in the presence of abrasive particles (abrasive wear). For the more acidic physiological environment, in comparison to pH 7·4, higher corrosion rates occurred under wear corrosion conditions leading to increased metal ion release. Consequently, the proteins and the pH level of hip joint environments play a significant role in the tribocorrosion performance of the cast CoCrMo and a discussion of the combined wear and corrosion mechanisms will be presented.

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More information

Published date: September 2008
Additional Information: The National Centre for Advanced Tribology at Southampton (nCATS), School of Engineering Sciences, University of Southampton, Highfield, Southampton SO17 1BJ, UK; Presented at the 5th China International Symposium on Tribology, September 2008, Beijing
Keywords: effects, proteins, pH, tribo-corrosion, performance, cast, CoCrMo, electrochemical, COCRMO, TRIBOCORROSION, PROTEIN ADSORPTION, ELECTROCHEMICAL IMPEDANCE SPECTROSCOPY
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Identifiers

Local EPrints ID: 64920
URI: http://eprints.soton.ac.uk/id/eprint/64920
DOI: doi:10.1179/175158309X408315
ISSN: 1751-5831
PURE UUID: 0c37ae8f-fc50-4bf3-9a22-c7fc7d8e055b
ORCID for J.A. Wharton: ORCID iD orcid.org/0000-0002-3439-017X
ORCID for R.J.W. Wood: ORCID iD orcid.org/0000-0003-0681-9239

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Date deposited: 27 Jan 2009
Last modified: 16 Mar 2024 02:59

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Contributors

Author: D. Sun
Author: J.A. Wharton ORCID iD
Author: R.J.W. Wood ORCID iD

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