Investigating Helium Bubble Nucleation and Growth through Simultaneous In-Situ Cryogenic, Ion Implantation, and Environmental Transmission Electron Microscopy

Palladium can readily dissociate molecular hydrogen at its surface, and rapidly accept it onto the octahedral sites of its face-centered cubic crystal structure. This can include radioactive tritium. As tritium β-decays with a half-life of 12.3 years, He-3 is generated in the metal lattice, causing...

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Published inMaterials Vol. 12; no. 16; p. 2618
Main Authors Taylor, Caitlin A, Briggs, Samuel, Greaves, Graeme, Monterrosa, Anthony, Aradi, Emily, Sugar, Joshua D, Robinson, David B, Hattar, Khalid, Hinks, Jonathan A
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 16.08.2019
MDPI
Subjects
Aging
Beta phase
Blistering
Communication
Cryoforming
Cryogenic temperature
Crystal structure
environmental transmission electron microscopy
Helium
helium implantation
Hydrides
in-situ
Investigations
Ion beams
Ion implantation
MATERIALS SCIENCE
Nucleation
Palladium
palladium tritide
Transmission electron microscopy
Tritium
United States > US
helium implantation
in-situ
palladium tritide
environmental transmission electron microscopy
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Abstract Palladium can readily dissociate molecular hydrogen at its surface, and rapidly accept it onto the octahedral sites of its face-centered cubic crystal structure. This can include radioactive tritium. As tritium β-decays with a half-life of 12.3 years, He-3 is generated in the metal lattice, causing significant degradation of the material. Helium bubble evolution at high concentrations can result in blister formation or exfoliation and must therefore be well understood to predict the longevity of materials that absorb tritium. A hydrogen over-pressure must be applied to palladium hydride to prevent hydrogen from desorbing from the metal, making it difficult to study tritium in palladium by methods that involve vacuum, such as electron microscopy. Recent improvements in in-situ ion implantation Transmission Electron Microscopy (TEM) allow for the direct observation of He bubble nucleation and growth in materials. In this work, we present results from preliminary experiments using the new ion implantation Environmental TEM (ETEM) at the University of Huddersfield to observe He bubble nucleation and growth, in-situ, in palladium at cryogenic temperatures in a hydrogen environment. After the initial nucleation phase, bubble diameter remained constant throughout the implantation, but bubble density increased with implantation time. β-phase palladium hydride was not observed to form during the experiments, likely indicating that the cryogenic implantation temperature played a dominating role in the bubble nucleation and growth behavior.
AbstractList Palladium can readily dissociate molecular hydrogen at its surface, and rapidly accept it onto the octahedral sites of its face-centered cubic crystal structure. This can include radioactive tritium. As tritium β-decays with a half-life of 12.3 years, He-3 is generated in the metal lattice, causing significant degradation of the material. Helium bubble evolution at high concentrations can result in blister formation or exfoliation and must therefore be well understood to predict the longevity of materials that absorb tritium. A hydrogen over-pressure must be applied to palladium hydride to prevent hydrogen from desorbing from the metal, making it difficult to study tritium in palladium by methods that involve vacuum, such as electron microscopy. Recent improvements in in-situ ion implantation Transmission Electron Microscopy (TEM) allow for the direct observation of He bubble nucleation and growth in materials. In this work, we present results from preliminary experiments using the new ion implantation Environmental TEM (ETEM) at the University of Huddersfield to observe He bubble nucleation and growth, in-situ, in palladium at cryogenic temperatures in a hydrogen environment. After the initial nucleation phase, bubble diameter remained constant throughout the implantation, but bubble density increased with implantation time. β-phase palladium hydride was not observed to form during the experiments, likely indicating that the cryogenic implantation temperature played a dominating role in the bubble nucleation and growth behavior.
Author Greaves, Graeme
Sugar, Joshua D
Hattar, Khalid
Briggs, Samuel
Monterrosa, Anthony
Aradi, Emily
Taylor, Caitlin A
Robinson, David B
Hinks, Jonathan A
AuthorAffiliation 3 School of Computing and Engineering, University of Huddersfield, Huddersfield HD1 3DH, UK
4 Sandia National Laboratories, Livermore, CA 94551, USA
1 Sandia National Laboratories, Albuquerque, NM 87185, USA
2 Nuclear Science and Engineering, Oregon State University, Corvallis, OR 97331, USA
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Issue 16
Keywords helium implantation
in-situ
palladium tritide
environmental transmission electron microscopy
Language English
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Snippet Palladium can readily dissociate molecular hydrogen at its surface, and rapidly accept it onto the octahedral sites of its face-centered cubic crystal...
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StartPage 2618
SubjectTerms Aging
Beta phase
Blistering
Communication
Cryoforming
Cryogenic temperature
Crystal structure
environmental transmission electron microscopy
Helium
helium implantation
Hydrides
in-situ
Investigations
Ion beams
Ion implantation
MATERIALS SCIENCE
Nucleation
Palladium
palladium tritide
Transmission electron microscopy
Tritium
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Title Investigating Helium Bubble Nucleation and Growth through Simultaneous In-Situ Cryogenic, Ion Implantation, and Environmental Transmission Electron Microscopy
URI https://www.ncbi.nlm.nih.gov/pubmed/31426387
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https://www.osti.gov/servlets/purl/1628410
https://pubmed.ncbi.nlm.nih.gov/PMC6719068
https://doaj.org/article/41c575abec144ac280310a9ffe7403db
Volume 12
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