Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity Environment

Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity Environment

The paper presents the results of in vitro studies of fretting and fretting corrosion processes of Ti6Al4V implant alloy in the environment of natural saliva and self-made mucin-based artificial saliva solutions. The study was performed on a specially designed fretting pin-on-disc tester, which was...

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Main Authors: Marcin Klekotka, Jan Ryszard Dąbrowski, Katarzyna Rećko
Format: Article
Language:English
Published: MDPI AG 2020-03-01
Series:Materials
Subjects:
fretting corrosion
implants
saliva
wear
biomaterials
titanium alloy
Online Access:https://www.mdpi.com/1996-1944/13/7/1561
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spelling doaj-a5ffb034b0ab4f829d68c6ab77482b2f2020-11-25T02:19:15ZengMDPI AGMaterials1996-19442020-03-01131561156110.3390/ma13071561Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity EnvironmentMarcin Klekotka0Jan Ryszard Dąbrowski1Katarzyna Rećko2Institute of Biomedical Engineering, Bialystok University of Technology, Wiejska 45C, 15-351 Bialystok, PolandInstitute of Biomedical Engineering, Bialystok University of Technology, Wiejska 45C, 15-351 Bialystok, PolandFaculty of Physics, University of Białystok, Ciołkowskiego 1L, 15-245 Białystok, PolandThe paper presents the results of in vitro studies of fretting and fretting corrosion processes of Ti6Al4V implant alloy in the environment of natural saliva and self-made mucin-based artificial saliva solutions. The study was performed on a specially designed fretting pin-on-disc tester, which was combined with a set used for electrochemical research. The open circuit potential measurements and potentiodynamic method were used for corrosion tests. The worn surfaces were subjected to microscopic observations and an evaluation of wear. Results were interpreted using the dissipated energy and third-body approaches. The X-ray diffraction analysis showed that titanium oxides constitute over 80% of the friction products. Special attention was paid to the role of saliva and its substitutes, which in certain cases can lead to the intensification of fretting wear. On the basis of the received results, a new phenomenological model of fretting corrosion processes was proposed. This model involves the formation of an abrasive paste that is a combination of metal oxides and the organic components of saliva.https://www.mdpi.com/1996-1944/13/7/1561fretting corrosionimplantssalivawearbiomaterialstitanium alloy
collection DOAJ
language English
format Article
sources DOAJ
author Marcin Klekotka
Jan Ryszard Dąbrowski
Katarzyna Rećko
spellingShingle Marcin Klekotka
Jan Ryszard Dąbrowski
Katarzyna Rećko
Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity Environment
Materials
fretting corrosion
implants
saliva
wear
biomaterials
titanium alloy
author_facet Marcin Klekotka
Jan Ryszard Dąbrowski
Katarzyna Rećko
author_sort Marcin Klekotka
title Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity Environment
title_short Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity Environment
title_full Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity Environment
title_fullStr Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity Environment
title_full_unstemmed Fretting and Fretting Corrosion Processes of Ti6Al4V Implant Alloy in Simulated Oral Cavity Environment
title_sort fretting and fretting corrosion processes of ti6al4v implant alloy in simulated oral cavity environment
publisher MDPI AG
series Materials
issn 1996-1944
publishDate 2020-03-01
description The paper presents the results of in vitro studies of fretting and fretting corrosion processes of Ti6Al4V implant alloy in the environment of natural saliva and self-made mucin-based artificial saliva solutions. The study was performed on a specially designed fretting pin-on-disc tester, which was combined with a set used for electrochemical research. The open circuit potential measurements and potentiodynamic method were used for corrosion tests. The worn surfaces were subjected to microscopic observations and an evaluation of wear. Results were interpreted using the dissipated energy and third-body approaches. The X-ray diffraction analysis showed that titanium oxides constitute over 80% of the friction products. Special attention was paid to the role of saliva and its substitutes, which in certain cases can lead to the intensification of fretting wear. On the basis of the received results, a new phenomenological model of fretting corrosion processes was proposed. This model involves the formation of an abrasive paste that is a combination of metal oxides and the organic components of saliva.
topic fretting corrosion
implants
saliva
wear
biomaterials
titanium alloy
url https://www.mdpi.com/1996-1944/13/7/1561
work_keys_str_mv AT marcinklekotka frettingandfrettingcorrosionprocessesofti6al4vimplantalloyinsimulatedoralcavityenvironment
AT janryszarddabrowski frettingandfrettingcorrosionprocessesofti6al4vimplantalloyinsimulatedoralcavityenvironment
AT katarzynarecko frettingandfrettingcorrosionprocessesofti6al4vimplantalloyinsimulatedoralcavityenvironment
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