Author Information

Antoine Ambard

Affiliation: EDF R&D

Division/Department: Departement MMC

Address:
Ecuelles, 77250
France

Other Names:
A. Ambard; Antoine Ambard; Antoine Ambard

Publications


A New Model to Predict the Oxidation Kinetics of Zirconium Alloys in a Pressurized Water Reactor

JAI101312
A. Ambard
EDF R&D MMC site des Renardières


A New Model to Predict the Oxidation Kinetics of Zirconium Alloys in a Pressurized Water Reactor

STP48147S
A. Ambard
EDF R&D MMC site des Renardières, av. des Renardières-Ecuelles


Characterization of Zirconium Hydrides and Phase Field Approach to a Mesoscopic-Scale Modeling of Their Precipitation

JAI101161
A. Ambard
EDF R&D


Characterization of Zirconium Hydrides and Phase Field Approach to a Mesoscopic-Scale Modeling of Their Precipitation

STP48129S
A. Ambard
EDF R&D, centre des Renardières, Ecuelles


Corrosion of M5 in PWRs: Quantification of Li, B, H and Nb in the Oxide Layers Formed Under Different Conditions

JAI103709
Antoine Ambard
EDF R&D


Effect of Sn on Corrosion Mechanisms in Advanced Zr-Cladding for Pressurised Water Reactors

STP154320130006
A. Ambard
EDF R&D


Hydrogen Pickup Mechanism in Zirconium Alloys

STP159720160055
Antoine Ambard
EDF R&D


Investigation and Modeling of the Degradation of Zirconium-Based Fuel Cladding during Corrosion in Steam and Air-Steam Mixtures at High Temperatures

STP159720160033
Antoine Ambard
EDF R&D


Microstructural Evolution of Q12TM Alloy Irradiated in PWRs and Comparison with Other Zr Base Alloys

STP159720160061
Antoine Ambard
Electricite France


Predicting the Flow Stress of Zircaloy-4 under In-Reactor Accident Conditions

STP159720160075
Antoine Ambard
Electricitede France R&D


Strain-Path Change Tests and Physically Based Polycrystalline Modeling of the Behavior of Recrystallized Zirconium Alloys

STP159720160092
Antoine Ambard
EDF R&D, Les Renardières, Ecuelles


Studies Regarding Corrosion Mechanisms in Zirconium Alloys

JAI103246
A. Ambard
EDF


Studies Regarding Corrosion Mechanisms in Zirconium Alloys

STP152920120026
A. Ambard
EDF, R&D


Toward a Better Understanding of Dimensional Changes in Zircaloy-4: What is the Impact Induced by Hydrides and Oxide Layer?

STP48158S
A. Ambard
EDF R&D


Toward a Better Understanding of Dimensional Changes in Zircaloy-4: What is the Impact Induced by Hydrides and Oxide Layer?

JAI101321
A. Ambard
EDF R&D


Understanding Crack Formation at the Metal/Oxide Interface During Corrosion of Zircaloy-4 Using a Simple Mechanical Model

JAI103550
A. Ambard
EDF R&D


Understanding Crack Formation at the Metal/Oxide Interface During Corrosion of Zircaloy-4 Using a Simple Mechanical Model

16th International Symposium on Zirconium in the Nuclear Industry, 9th May 2010 – 13th May 2010, Chengdu, Sichuan Province, China

STP152920120027
A. Ambard
EDF


Understanding of Corrosion Mechanisms after Irradiation: Effect of Ion Irradiation of the Oxide Layers on the Corrosion Rate of M5

STP159720160081
Antoine Ambard
EDF, EDF R&D


Understanding of Corrosion Mechanisms of Zirconium Alloys after Irradiation: Effect of Ion Irradiation of the Oxide Layers on the Corrosion Rate

STP154320120199
Antoine Ambard
Centre des Renardières, Ecuelles


StockCodeTitlePublished AsAffiliationPub Date by Most Viewed
JAI101312 A New Model to Predict the Oxidation Kinetics of Zirconium Alloys in a Pressurized Water Reactor A. Ambard EDF R&D MMC site des Renardières 13 May 2008
STP48147S A New Model to Predict the Oxidation Kinetics of Zirconium Alloys in a Pressurized Water Reactor A. Ambard EDF R&D MMC site des Renardières, av. des Renardières-Ecuelles 01 January 2009
JAI101161 Characterization of Zirconium Hydrides and Phase Field Approach to a Mesoscopic-Scale Modeling of Their Precipitation A. Ambard EDF R&D 28 March 2008
STP48129S Characterization of Zirconium Hydrides and Phase Field Approach to a Mesoscopic-Scale Modeling of Their Precipitation A. Ambard EDF R&D, centre des Renardières, Ecuelles 01 January 2009
JAI103709 Corrosion of M5 in PWRs: Quantification of Li, B, H and Nb in the Oxide Layers Formed Under Different Conditions Antoine Ambard EDF R&D 01 October 2011
STP154320130006 Effect of Sn on Corrosion Mechanisms in Advanced Zr-Cladding for Pressurised Water Reactors A. Ambard EDF R&D 30 January 2015
STP159720160055 Hydrogen Pickup Mechanism in Zirconium Alloys Antoine Ambard EDF R&D 01 January 2018
STP159720160033 Investigation and Modeling of the Degradation of Zirconium-Based Fuel Cladding during Corrosion in Steam and Air-Steam Mixtures at High Temperatures Antoine Ambard EDF R&D 01 January 2018
STP159720160061 Microstructural Evolution of Q12TM Alloy Irradiated in PWRs and Comparison with Other Zr Base Alloys Antoine Ambard Electricite France 01 January 2018
STP159720160075 Predicting the Flow Stress of Zircaloy-4 under In-Reactor Accident Conditions Antoine Ambard Electricitede France R&D 01 January 2018
STP159720160092 Strain-Path Change Tests and Physically Based Polycrystalline Modeling of the Behavior of Recrystallized Zirconium Alloys Antoine Ambard EDF R&D, Les Renardières, Ecuelles 01 January 2018
JAI103246 Studies Regarding Corrosion Mechanisms in Zirconium Alloys A. Ambard EDF 18 August 2011
STP152920120026 Studies Regarding Corrosion Mechanisms in Zirconium Alloys A. Ambard EDF, R&D 01 April 2012
STP48158S Toward a Better Understanding of Dimensional Changes in Zircaloy-4: What is the Impact Induced by Hydrides and Oxide Layer? A. Ambard EDF R&D 01 January 2009
JAI101321 Toward a Better Understanding of Dimensional Changes in Zircaloy-4: What is the Impact Induced by Hydrides and Oxide Layer? A. Ambard EDF R&D 21 October 2008
JAI103550 Understanding Crack Formation at the Metal/Oxide Interface During Corrosion of Zircaloy-4 Using a Simple Mechanical Model A. Ambard EDF R&D 11 August 2011
STP152920120027 Understanding Crack Formation at the Metal/Oxide Interface During Corrosion of Zircaloy-4 Using a Simple Mechanical Model

16th International Symposium on Zirconium in the Nuclear Industry, 9th May 2010 – 13th May 2010, Chengdu, Sichuan Province, China

A. Ambard EDF 01 April 2012
STP159720160081 Understanding of Corrosion Mechanisms after Irradiation: Effect of Ion Irradiation of the Oxide Layers on the Corrosion Rate of M5 Antoine Ambard EDF, EDF R&D 01 January 2018
STP154320120199 Understanding of Corrosion Mechanisms of Zirconium Alloys after Irradiation: Effect of Ion Irradiation of the Oxide Layers on the Corrosion Rate Antoine Ambard Centre des Renardières, Ecuelles 30 January 2015