Article | REF: COR640 V1

Corrosion phenomena in liquid metal systems

Authors: Fanny BALBAUD-CELERIER, Laure MARTINELLI

Publication date: June 10, 2013, Review date: September 2, 2020

You do not have access to this resource.
Click here to request your free trial access!

Already subscribed? Log in!


Overview

Français

ABSTRACT

Liquid metals (Pb, Na, Hg, Al, Zn) and their alloys are used in a large number of industrial sectors: energy, aeronautics, metallurgy. Due to their thermal properties, their use is very interesting as coolants of nuclear systems for instance. However, these liquid metals are corrosive when they come into contact with solid materials, all the more so as their temperature of use is high. Preserving structural materials in contact with these liquid metals requires the knowledge, understanding and modeling of the potential corrosion phenomena.

Read this article from a comprehensive knowledge base, updated and supplemented with articles reviewed by scientific committees.

Read the article

AUTHORS

  • Fanny BALBAUD-CELERIER: Doctor, HdR - Engineer from the École nationale supérieure de chimie de Clermont-Ferrand - CEA international expert in materials and corrosion, CEA Saclay

  • Laure MARTINELLI: Doctorate, engineer from the École nationale supérieure des mines de Paris - Research engineer at the Laboratory for the Study of Non-Aqueous Corrosion, CEA Saclay

 INTRODUCTION

Liquid metals are used in many industrial sectors: metallurgy, energy, aeronautics. They are mainly used as heat transfer fluids in heat exchanger components (Na, Pb, Pb-Bi, Pb-Li, Ga, Hg) due to their high thermal conductivity, which gives them exceptional heat transfer properties (the heat transfer capability of the fluid will determine the diameters of pipes and piping elements, It is a function of the fluid's thermal mass capacity, while the heat transfer capacity determines the heat exchanger's exchange surfaces, and is a function of the fluid's thermal conductivity [BE 9 570][BE 9 571] ), as baths for producing metallic deposits [M 1 534] on solid parts (e.g., for anti-corrosion coatings: Zn, Al, Sn) or as heat treatment baths (Pb)).

Liquid metals can be corrosive to the solid materials they come into contact with, especially at higher operating temperatures. The materials used are either metallic (mainly iron-based) or refractory. The need to guarantee the service life of structures containing these liquid metals, and to anticipate any component changes that may need to be made, requires an understanding and modeling of corrosion mechanisms. This is all the more essential in the case of the nuclear industry, which uses or plans to use liquid metals as: heat transfer fluids in Generation IV nuclear reactors (Na, Pb) [BN 3 020][BN 3 680] , as tritium blanket and coolant in fusion reactors (Li, Pb-Li)

You do not have access to this resource.

Exclusive to subscribers. 97% yet to be discovered!

You do not have access to this resource.
Click here to request your free trial access!

Already subscribed? Log in!


The Ultimate Scientific and Technical Reference

A Comprehensive Knowledge Base, with over 1,200 authors and 100 scientific advisors
+ More than 10,000 articles and 1,000 how-to sheets, over 800 new or updated articles every year
From design to prototyping, right through to industrialization, the reference for securing the development of your industrial projects

KEYWORDS

state of art   |   Scanning electron microscope   |   Oxygen probe   |   energy   |   metallurgy   |   thermodynamic   |   High temperature corrosion


This article is included in

Corrosion - Aging

This offer includes:

Knowledge Base

Updated and enriched with articles validated by our scientific committees

Services

A set of exclusive tools to complement the resources

Practical Path

Operational and didactic, to guarantee the acquisition of transversal skills

Doc & Quiz

Interactive articles with quizzes, for constructive reading

Subscribe now!

Ongoing reading
Corrosion phenomena in liquid metals
Outline