Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour

Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour

The feedback produced by operating Sodium-cooled Fast Reactors (SFRs) has shown the importance of material tribological properties. Where galling or adhesive wear cannot be allowed, hardfacing alloys, known to be galling-resistant coatings, are usually applied on rubbing surfaces. The most used coat...

Full description

Bibliographic Details
Main Authors: Rouillard Fabien, Duprey Brigitte, Courouau Jean-Louis, Robin Raphaël, Aubry Pascal, Blanc Cécile, Tabarant Michel, Maskrot Hicham, Nicolas Laetitia, Blat-Yrieix Martine, Rolland Gilles, Marlaud Thorsten
Format: Article
Language:English
Published: EDP Sciences 2019-01-01
Series:EPJ Nuclear Sciences & Technologies
Online Access:https://www.epj-n.org/articles/epjn/full_html/2019/01/epjn190005/epjn190005.html
id doaj-9d12afce7b5d47a79b546cc823aaeddc
record_format Article
spelling doaj-9d12afce7b5d47a79b546cc823aaeddc2021-04-02T13:34:00ZengEDP SciencesEPJ Nuclear Sciences & Technologies2491-92922019-01-0151010.1051/epjn/2019025epjn190005Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviourRouillard Fabien0Duprey Brigitte1Courouau Jean-Louis2Robin Raphaël3Aubry Pascal4Blanc Cécile5Tabarant Michel6Maskrot Hicham7Nicolas Laetitia8Blat-Yrieix Martine9Rolland Gilles10Marlaud Thorsten11Den-Service de la Corrosion et du Comportement des Matériaux dans leur Environnement (SCCME), CEA, Université Paris-SaclayDen-Service de la Corrosion et du Comportement des Matériaux dans leur Environnement (SCCME), CEA, Université Paris-SaclayDen-Service de la Corrosion et du Comportement des Matériaux dans leur Environnement (SCCME), CEA, Université Paris-SaclayDen-Service de la Corrosion et du Comportement des Matériaux dans leur Environnement (SCCME), CEA, Université Paris-SaclayDen-Service d'Etudes Analytiques et de Réactivtiés des Surfaces (SEARS), CEA, Université Paris-SaclayDen-Service d'Etudes Analytiques et de Réactivtiés des Surfaces (SEARS), CEA, Université Paris-SaclayDen-Service d'Etudes Analytiques et de Réactivtiés des Surfaces (SEARS), CEA, Université Paris-SaclayDen-Service d'Etudes Analytiques et de Réactivtiés des Surfaces (SEARS), CEA, Université Paris-SaclayDen-Service de Recherches Métallurgiques Appliquées (SRMA), CEA, Université Paris-SaclayEDF R&D, Département Matériaux et Mécanique des Composants, Les RenardièresEDF R&D, Département Matériaux et Mécanique des Composants, Les RenardièresFRAMATOME, DTIML, 10 rue Juliette RécamierThe feedback produced by operating Sodium-cooled Fast Reactors (SFRs) has shown the importance of material tribological properties. Where galling or adhesive wear cannot be allowed, hardfacing alloys, known to be galling-resistant coatings, are usually applied on rubbing surfaces. The most used coating is the cobalt-base alloy named Stellite 6® because of its outstanding friction and wear behaviour. Nevertheless, cobalt is an element which activates in the reactor leading to complex management of safety during reactor maintenance and mainly decommissioning. As a consequence, a collaborative work between CEA, EDF and FRAMATOME has been launched for selecting promising cobalt-free hardfacing alloys for the 600 MWe Sodium-cooled Fast breeder reactor project named ASTRID. Several nickel-base alloys have been selected from literature review then deposited by Plasma Transferred Arc or Laser Cladding on 17Cr austenitic stainless steel 316L(N) according to RCC-MRx Code (AFCEN Code). Among the numerous properties required for qualifying their use as hardfacing alloys in SFR, good corrosion behaviour and good friction and wear behaviour in sodium are essential. First results on these properties are shown in this article. Firstly, the corrosion behaviour of all coatings was evaluated through exposure tests in purified sodium for 5000 h at 400 °C. All coatings showed an acceptable corrosion behaviour in sodium. Finally, the friction and wear properties of one alloy candidate, NiCrBSi alloy, were studied in sodium in a dedicated designed facility. The influence of the oxygen concentration in sodium on the friction and wear properties was evaluated.https://www.epj-n.org/articles/epjn/full_html/2019/01/epjn190005/epjn190005.html
collection DOAJ
language English
format Article
sources DOAJ
author Rouillard Fabien
Duprey Brigitte
Courouau Jean-Louis
Robin Raphaël
Aubry Pascal
Blanc Cécile
Tabarant Michel
Maskrot Hicham
Nicolas Laetitia
Blat-Yrieix Martine
Rolland Gilles
Marlaud Thorsten
spellingShingle Rouillard Fabien
Duprey Brigitte
Courouau Jean-Louis
Robin Raphaël
Aubry Pascal
Blanc Cécile
Tabarant Michel
Maskrot Hicham
Nicolas Laetitia
Blat-Yrieix Martine
Rolland Gilles
Marlaud Thorsten
Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour
EPJ Nuclear Sciences & Technologies
author_facet Rouillard Fabien
Duprey Brigitte
Courouau Jean-Louis
Robin Raphaël
Aubry Pascal
Blanc Cécile
Tabarant Michel
Maskrot Hicham
Nicolas Laetitia
Blat-Yrieix Martine
Rolland Gilles
Marlaud Thorsten
author_sort Rouillard Fabien
title Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour
title_short Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour
title_full Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour
title_fullStr Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour
title_full_unstemmed Evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour
title_sort evaluation of cobalt free coatings as hardfacing material candidates in sodium-cooled fast reactor and effect of oxygen in sodium on the tribological behaviour
publisher EDP Sciences
series EPJ Nuclear Sciences & Technologies
issn 2491-9292
publishDate 2019-01-01
description The feedback produced by operating Sodium-cooled Fast Reactors (SFRs) has shown the importance of material tribological properties. Where galling or adhesive wear cannot be allowed, hardfacing alloys, known to be galling-resistant coatings, are usually applied on rubbing surfaces. The most used coating is the cobalt-base alloy named Stellite 6® because of its outstanding friction and wear behaviour. Nevertheless, cobalt is an element which activates in the reactor leading to complex management of safety during reactor maintenance and mainly decommissioning. As a consequence, a collaborative work between CEA, EDF and FRAMATOME has been launched for selecting promising cobalt-free hardfacing alloys for the 600 MWe Sodium-cooled Fast breeder reactor project named ASTRID. Several nickel-base alloys have been selected from literature review then deposited by Plasma Transferred Arc or Laser Cladding on 17Cr austenitic stainless steel 316L(N) according to RCC-MRx Code (AFCEN Code). Among the numerous properties required for qualifying their use as hardfacing alloys in SFR, good corrosion behaviour and good friction and wear behaviour in sodium are essential. First results on these properties are shown in this article. Firstly, the corrosion behaviour of all coatings was evaluated through exposure tests in purified sodium for 5000 h at 400 °C. All coatings showed an acceptable corrosion behaviour in sodium. Finally, the friction and wear properties of one alloy candidate, NiCrBSi alloy, were studied in sodium in a dedicated designed facility. The influence of the oxygen concentration in sodium on the friction and wear properties was evaluated.
url https://www.epj-n.org/articles/epjn/full_html/2019/01/epjn190005/epjn190005.html
work_keys_str_mv AT rouillardfabien evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT dupreybrigitte evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT courouaujeanlouis evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT robinraphael evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT aubrypascal evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT blanccecile evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT tabarantmichel evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT maskrothicham evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT nicolaslaetitia evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT blatyrieixmartine evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT rollandgilles evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
AT marlaudthorsten evaluationofcobaltfreecoatingsashardfacingmaterialcandidatesinsodiumcooledfastreactorandeffectofoxygeninsodiumonthetribologicalbehaviour
_version_ 1721564606237769728

Similar Items