Overview
FrançaisABSTRACT
The mechanisms of marine corrosion result from the physico-chemical and mechanical interactions between materials and a very specific environment, the marine medium. The high electrical conductivity of seawater favors galvanic coupling and corrosion cells. Due to its high chloride content, it is aggressive towards passivatable metals, and notably certain stainless steels. Biologically active, sea water is also capable of inducing corrosion phenomena influenced by bacteria. The design of a metal structure, the choice of materials and methods of protection against corrosion are therefore based on detailed knowledge of materials and the marine environment.
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Read the articleAUTHORS
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Juan Creus: Engineer at the Institut National des Sciences Appliquées de Lyon (INSA) - Doctor of materials engineering - Professor at the University of La Rochelle - La Rochelle, France
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René Sabot: Doctor of science, specialising in electrochemistry - Lecturer at the University of La Rochelle - La Rochelle, France
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Philippe Refait: Engineer at the École Supérieure des Sciences et Technologies de l’Ingénieur de Nancy (ESSTIN) - Doctor of science and materials engineering - Professor at the University of La Rochelle - La Rochelle, France
INTRODUCTION
Corrosion is an interaction between a metallic material and its environment causing damage to the material, meaning changes to its properties that may lead to impairment of the function of the system of which it forms a part (NF EN ISO 8044 standard). At ambient temperatures, the phenomenon arises most often from the combined action of an aqueous environment and dioxygen in the air. It is thus clear, and must therefore be borne in mind at all times, that a metal’s resistance to corrosion is not an intrinsic property, in the same way as density, for example, but depends on a great many parameters, including those associated with an aggressive environment.
The term “marine corrosion” thus encompasses all physicochemical and mechanical interactions between materials in a totally specific environment: the marine environment. This is not simply a special case of aqueous corrosion and, typically, likening marine corrosion to the phenomena taking place in a solution of 0.5 mol.L –1 NaCl would be a very rough approximation. This distinction arises from the particular, unique properties of the marine environment.
As a general rule, that environment must be seen as a dynamic aqueous environment, containing dissolved salts, gases, organic compounds, undissolved solids and living microorganisms. One of our objectives will be to show, though the study of a number of real-life situations, how the mechanisms of corrosion and the various properties of the marine environment are linked. Protection against that damage, which must be thought about when the system is designed, and the selection of materials, are also intimately linked to the specific characteristics of the environment.
Thus the article starts by describing the marine environment in all its different aspects: physicochemical, biological and hydrodynamic. The main mechanisms of the marine corrosion of metallic materials and their relationship with the specific characteristics of the environment are then presented. Control measures to be taken when a structure is being designed, the rules to follow when selecting materials, and protective measures against corrosion in the marine environment are discussed in the third and final part.
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KEYWORDS
state of the art | biocorrosion | galvanic corrosion | pitting corrosion | cathodic protection | Materials science and engineering | Coatings and surface treatments
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Corrosion and protection of metals in a marine environment
Bibliographical sources
Events
Marine Corrosion Forum
http://www.marinecorrosionforum.org/forum.html
International congress on marine corrosion and fouling (ICMCF)
Forum on the Biodeterioration of Materials (CEFRACOR)...
Norms and standards
- Corrosion of metals and alloys – Vocabulary - NF EN ISO 8044 - 2020
- Corrosion of metals and alloys – Corrosivity of atmospheres – Classification, determination and estimation - NF EN ISO 9223 - 2012
- General principles of cathodic protection in seawater - NF EN ISO 12473 - 2014
Directory
Organisations – Associations – Federations
Laboratoire des Sciences de l’Ingénieur pour l’Environnement
http://www.lasie.univ-larochelle.fr/
IFREMER
http://www.ifremer.fr/francais/
Institut de la...
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