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Focused Ion Beam induced hydride formation does not affect Fe, Ni, Cr-clusters in irradiated Zircaloy-2

David Mayweg, Johan Eriksson, Olof Bäcke, Andrew Breen, Mattias Thuvander

2023Journal of Nuclear Materials15 citationsDOIOpen Access PDF

Abstract

Room temperature focused ion beam (FIB) milling is known to potentially promote the formation of hydrides in zirconium and its alloys. We used atom probe tomography (APT) to determine the composition of irradiated and as-produced Zircaloy-2 fuel cladding. We consistently found ∼ 50 at% hydrogen in all room temperature FIB-milled specimens run in voltage pulsing APT measurements. Crystallographic analysis of APT data however showed slightly better agreement with δ-hydride (ZrH2, FCC, ∼ 60–66.7 at% H) than γ-hydride (ZrH, FCT, ∼ 50 at% H). Electron energy loos spectroscopy (EELS) measurements prior to APT analyses confirmed the presence of δ-hydride. Hence, APT gives a systematic underestimation of hydrogen for Zr-hydride. Milling at cryogenic temperatures was found to not cause such hydride formation. However, we did not find significant differences in the clusters formed by segregation of the alloying elements Fe, Cr and Ni to irradiation induced a-loops whether the material was identified as α-Zr or hydride. Therefore, analyzing irradiation-induced redistribution of alloying elements in Zr fuel cladding using APT does not rely on FIB preparation at cryogenic temperatures. However, in conjunction with voltage pulsing APT cryo-FIB can be worthwhile if one aims at investigating hydrogen distribution or hydrides.

Topics & Concepts

Zirconium alloyHydrideZirconium hydrideHydrogenMaterials scienceIrradiationZirconiumCladding (metalworking)IonFocused ion beamAnalytical Chemistry (journal)RadiochemistryMetallurgyChemistryNuclear physicsMetalOrganic chemistryChromatographyPhysicsAdvanced Materials Characterization TechniquesNuclear Materials and PropertiesFusion materials and technologies
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