Corrosion fatigue of biomedical metallic alloys: Mechanisms and mitigation

Cyclic stresses are often related to the premature mechanical failure of metallic biomaterials. The complex interaction between fatigue and corrosion in the physiological environment has been subject of many investigations. In this context, microstructure, heat treatments, plastic deformation, surfa...

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Published inActa biomaterialia Vol. 8; no. 3; pp. 937 - 962
Main Authors Antunes, Renato Altobelli, de Oliveira, Mara Cristina Lopes
Format Journal Article
LanguageEnglish
Published England Elsevier Ltd 01.03.2012
Subjects
Alloys
Animals
biocompatible materials
coatings
Cobalt alloy
Corrosion
Corrosion fatigue
finishing
heat treatment
Humans
Magnesium
Materials Testing
Materials Testing - methods
methods
microstructure
Models, Theoretical
plastic deformation
Prosthesis Design
Prosthesis Failure
Stainless steel
Stress, Mechanical
Surface Properties
Titanium alloy
Titanium alloy
Magnesium
Corrosion fatigue
Stainless steel
Cobalt alloy
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Abstract Cyclic stresses are often related to the premature mechanical failure of metallic biomaterials. The complex interaction between fatigue and corrosion in the physiological environment has been subject of many investigations. In this context, microstructure, heat treatments, plastic deformation, surface finishing and coatings have decisive influence on the mechanisms of fatigue crack nucleation and growth. Furthermore, wear is frequently present and contributes to the process. However, despite all the effort at elucidating the mechanisms that govern corrosion fatigue of biomedical alloys, failures continue to occur. This work reviews the literature on corrosion-fatigue-related phenomena of Ti alloys, surgical stainless steels, Co–Cr–Mo and Mg alloys. The aim was to discuss the correlation between structural and surface aspects of these materials and the onset of fatigue in the highly saline environment of the human body. By understanding such correlation, mitigation of corrosion fatigue failure may be achieved in a reliable scientific-based manner. Different mitigation methods are also reviewed and discussed throughout the text. It is intended that the information condensed in this article should be a valuable tool in the development of increasingly successful designs against the corrosion fatigue of metallic implants.
AbstractList Cyclic stresses are often related to the premature mechanical failure of metallic biomaterials. The complex interaction between fatigue and corrosion in the physiological environment has been subject of many investigations. In this context, microstructure, heat treatments, plastic deformation, surface finishing and coatings have decisive influence on the mechanisms of fatigue crack nucleation and growth. Furthermore, wear is frequently present and contributes to the process. However, despite all the effort at elucidating the mechanisms that govern corrosion fatigue of biomedical alloys, failures continue to occur. This work reviews the literature on corrosion-fatigue-related phenomena of Ti alloys, surgical stainless steels, Co-Cr-Mo and Mg alloys. The aim was to discuss the correlation between structural and surface aspects of these materials and the onset of fatigue in the highly saline environment of the human body. By understanding such correlation, mitigation of corrosion fatigue failure may be achieved in a reliable scientific-based manner. Different mitigation methods are also reviewed and discussed throughout the text. It is intended that the information condensed in this article should be a valuable tool in the development of increasingly successful designs against the corrosion fatigue of metallic implants.
Cyclic stresses are often related to the premature mechanical failure of metallic biomaterials. The complex interaction between fatigue and corrosion in the physiological environment has been subject of many investigations. In this context, microstructure, heat treatments, plastic deformation, surface finishing and coatings have decisive influence on the mechanisms of fatigue crack nucleation and growth. Furthermore, wear is frequently present and contributes to the process. However, despite all the effort at elucidating the mechanisms that govern corrosion fatigue of biomedical alloys, failures continue to occur. This work reviews the literature on corrosion-fatigue-related phenomena of Ti alloys, surgical stainless steels, Co-Cr-Mo and Mg alloys. The aim was to discuss the correlation between structural and surface aspects of these materials and the onset of fatigue in the highly saline environment of the human body. By understanding such correlation, mitigation of corrosion fatigue failure may be achieved in a reliable scientific-based manner. Different mitigation methods are also reviewed and discussed throughout the text. It is intended that the information condensed in this article should be a valuable tool in the development of increasingly successful designs against the corrosion fatigue of metallic implants.Cyclic stresses are often related to the premature mechanical failure of metallic biomaterials. The complex interaction between fatigue and corrosion in the physiological environment has been subject of many investigations. In this context, microstructure, heat treatments, plastic deformation, surface finishing and coatings have decisive influence on the mechanisms of fatigue crack nucleation and growth. Furthermore, wear is frequently present and contributes to the process. However, despite all the effort at elucidating the mechanisms that govern corrosion fatigue of biomedical alloys, failures continue to occur. This work reviews the literature on corrosion-fatigue-related phenomena of Ti alloys, surgical stainless steels, Co-Cr-Mo and Mg alloys. The aim was to discuss the correlation between structural and surface aspects of these materials and the onset of fatigue in the highly saline environment of the human body. By understanding such correlation, mitigation of corrosion fatigue failure may be achieved in a reliable scientific-based manner. Different mitigation methods are also reviewed and discussed throughout the text. It is intended that the information condensed in this article should be a valuable tool in the development of increasingly successful designs against the corrosion fatigue of metallic implants.
Author de Oliveira, Mara Cristina Lopes
Antunes, Renato Altobelli
Author_xml – sequence: 1
  givenname: Renato Altobelli
  surname: Antunes
  fullname: Antunes, Renato Altobelli
  email: renato.antunes@ufabc.edu.br
  organization: Engineering, Modeling and Applied Social Sciences Center (CECS), Federal University of ABC (UFABC), 09210-170 Santo André, SP, Brazil
– sequence: 2
  givenname: Mara Cristina Lopes
  surname: de Oliveira
  fullname: de Oliveira, Mara Cristina Lopes
  organization: Electrocell Ind. Com. Equip. Elet. LTDA, Technology, Entrepreneurship and Innovation Center (CIETEC), 05508-000 São Paulo, SP, Brazil
BackLink https://www.ncbi.nlm.nih.gov/pubmed/21951920$$D View this record in MEDLINE/PubMed
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Keywords Titanium alloy
Magnesium
Corrosion fatigue
Stainless steel
Cobalt alloy
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Snippet Cyclic stresses are often related to the premature mechanical failure of metallic biomaterials. The complex interaction between fatigue and corrosion in the...
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SubjectTerms Alloys
Animals
biocompatible materials
coatings
Cobalt alloy
Corrosion
Corrosion fatigue
finishing
heat treatment
Humans
Magnesium
Materials Testing
Materials Testing - methods
methods
microstructure
Models, Theoretical
plastic deformation
Prosthesis Design
Prosthesis Failure
Stainless steel
Stress, Mechanical
Surface Properties
Titanium alloy
Title Corrosion fatigue of biomedical metallic alloys: Mechanisms and mitigation
URI https://dx.doi.org/10.1016/j.actbio.2011.09.012
https://www.ncbi.nlm.nih.gov/pubmed/21951920
https://www.proquest.com/docview/1678558021
https://www.proquest.com/docview/919952808
https://www.proquest.com/docview/923209554
Volume 8
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