Mechanical and Electro-chemical Interactions under Tribocorrosion

From Measurements to Modelling for Building a Relevant Monitoring Approach

1st Edition, Volume 70 - August 22, 2021
Editors: Pierre Ponthiaux, Jean-Pierre Celis
Language: English
Hardback ISBN:
9 7 8 - 0 - 1 2 - 8 2 3 7 6 5 - 6
eBook ISBN:
9 7 8 - 0 - 1 2 - 8 2 3 7 6 6 - 3

Mechanical and Electro-chemical Interactions under Tribocorrosion: From Measurements to Modelling for Building a Relevant Monitoring Approach looks at progress in the field of… Read more

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Mechanical and Electro-chemical Interactions under Tribocorrosion: From Measurements to Modelling for Building a Relevant Monitoring Approach looks at progress in the field of tribocorrosion. The work is a result of the efforts of the European tribocorrosion community gathered under the auspices of the European Corrosion Federation (EFC) within WP18 Tribocorrosion. In addition to the handbook, Testing Tribocorrosion of Passivating Materials Supporting Research and industrial Innovation published in 2012, this release describes the latest scientific approaches recognized and validated experimentally to address tribocorrosion. Sections look at the phenomena of coupling through an understanding of the associated mechanisms and how to identify variables.

Final sections cover strategies to control and/or extend the life of structures in a multi-process coupling situation and an in-depth description of the current state-of-the-art on modeling approaches of tribocorrosion.

Cover image
Title page
Table of Contents
Copyright
European Federation of Corrosion publications: Series introduction
Volumes in the EFC series
Contributors
1: Preamble
2: Stress/strain effects on electrochemical activity: Metallurgical/mechanical/interactions and surface reactivity
Abstract
2.1: Introduction
2.2: Definition of a relevant approach
2.3: Influence of compressive stresses
2.4: Influence of tensile stresses in the elastic domain
2.5: Influence of plastic deformation
2.6: Conclusions
2.7: Notations
3: Mechanical and chemical coupling in tribocorrosion: In situ and ex situ characterization techniques
Abstract
3.1: Introduction
3.2: Local electrochemical techniques
3.3: Application of in situ vibrational spectroscopy for studies of tribochemical and tribocorrosion processes
3.4: Conclusions
3.5: List of symbols
3.6: List of abbreviations
4: Managing tribocorrosion investigations by stress mapping: Dual mobility concept, hip implant, as required step
Abstract
Acknowledgments
4.1: Introduction
4.2: Testing of human gait in vitro as an example
4.3: Applications in tribocorrosion
4.4: Conclusions
4.5: Notations
5: Parallel wear tests: The need for statistical analysis in tribology
Abstract
5.1: Introduction: Lab testing approach to industrial issues of tribocorrosion
5.2: Need for statistics to analyze wear
5.3: State-of-the-art on current wear generators
5.4: Industrial examples on statistical wear analysis
5.5: Summary
5.6: Notations
6: The use of the Pearson’s correlation coefficients to identify mechanical-physical-chemical parameters controlling the tribocorrosion of metallic alloy
Abstract
6.1: Introduction
6.2: The Pearson correlation method
6.3: Methodology
6.4: Application of the PCM in corrosion science and engineering
6.5: Application of the PCM to stress corrosion cracking and fatigue corrosion
6.6: Application of the PCM to tribocorrosion
6.7: Conclusions
6.8: Notations
7: Fretting wear analysis through a mechanical friction energy approach: Impact of contact loadings and ambient conditions
Abstract
7.1: Introduction
7.2: Fretting test experiments
7.3: Fretting mapping approach
7.4: Wear rate description
7.5: Influence of contact loadings regarding wear rate fluctuations
7.6: Influence of the ambient conditions
7.7: Surface wear modeling: Prediction of the maximum wear depth
7.8: Conclusion
7.9: Notations
8: Harmonic analysis of tribocorrosion: Identification of repassivation kinetics and separation of reactive (corrosion) and mechanical (wear) contributions
Abstract
8.1: Introduction
8.2: General concept, experimental approach, and techniques
8.3: Analysis of repassivation kinetics by ac modulation of the angular velocity of the counter-body
8.4: From steady-state to electrochemical impedance ac modulation of the applied potential
8.5: Conclusions and perspectives
8.6: Notations
9: Modeling erosion-corrosion in metals: The effects of elastic rebound and impact angle on erosion-corrosion maps
Abstract
9.1: Introduction
9.2: Energy balance during a solid particle erosion event
9.3: Derivation of an expression for the coefficient of restitution
9.4: Derivation of erosion models based on the rebound analysis
9.5: Corrosion rate and boundary conditions
9.6: Elastic rebound effects on the transition boundaries of the aqueous erosion-corrosion map
9.7: Discussion
9.8: Conclusions
9.9: Notations
10: A monitoring management strategy in tribocorrosion: Application to erosion-corrosion in oil and gas exploration-production
Abstract
10.1: Introduction
10.2: Erosion-corrosion in oil and gas production
10.3: Erosion and corrosion management strategy
10.4: Conclusions
10.5: Notations
Index

Pierre Ponthiaux

Pierre Ponthiaux obtained his Ph.D., in Materials Science, in 1990 at the doctoral school of Ecole Centrale Paris. In 1997 he got his academic qualification to conduct research, and he became full professor in 2009. The title of Doctor Honoris Causa of ’’Dunarea de Jos’’ University of Galati (Ro) was conferred to him in July 2010. At the Ecole Centrale Supelec, his research team on "Mechanical-chemical behaviour of surfaces – Tribocorrosion" was closely related to fields of “Physico-chemistry of interfaces” and “Life cycle of materials”. Since Nov 2015 he has been Honorary Professor of Paris-Saclay University - France. He is Secretary of the Scientific and Technical Committee of the CEFRACOR (F), and Founder & Vice-Chairman of the Working Party (WP18) on Tribocorrosion of the European Federation of Corrosion (EFC). He is a member of the Scientific Board of ‘’Journal of Bio- and Tribo-Corrosion’’ launched in 2015 by Springer, as well as “The Annals of Dunarea de Jos” – Univ. Of Galati. Fascicle IX.

Affiliations and expertise

Ecole Centrale Paris, France

Jean-Pierre Celis

Jean-Pierre Celis is emeritus professor with the KU Leuven, as well as visiting professor at Kyoto University 2015-2016 His Work focusses on Surface Technology, Degradation of Materials, Materials for microelectronics, Surface engineering and tribology. In addition, he serves as the scientific coordinator of the research group on Surface Engineering and Tribology, KU.Leuven. He is a Board Member & Director R&D of spin-off company Falex Tribology N.V. He is a member of the editorial boards of “Industrial Lubrication and Tribology”, “International J. of Surface Science and Engineering”, “Tribocorrosion”, and “Metallurgical Research and Technologies”. Dr. Celis is presently the founder & chairman of Working Party (WP18) on Tribocorrosion, European Federation of Corrosion (EFC).

Affiliations and expertise

Surface Engineering and Tribology, KU.Leuven, Belgium

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