Faceted He-Filled “Pancakes” Confined within Nanoscale Metal Layers

Faceted He-Filled “Pancakes” Confined within Nanoscale Metal Layers

Helium (He)-filled cavities in single-phase metals typically take on nearly equiaxed shapes, such as spherical bubbles or voids. However, in multiphase metal composites, the morphology of the constituent phases and the structure of the interfaces between them alter the shapes of such He-filled cavit...

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Veröffentlicht in:JOM (1989) 2020, Vol.72 (1), p.145-149
Hauptverfasser: Derby, Benjamin K., Baldwin, Jon Kevin, Chen, Di, Demkowicz, Michael J., Wang, Yongqiang Q., Misra, Amit, Li, Nan
Format: Artikel
Sprache:eng
Schlagworte:
Advanced Characterization and Testing of Irradiated Materials
Bubbles
Chemistry/Food Science
Earth Sciences
Energy
Engineering
Environment
High aspect ratio
Interfaces
Ion beams
Metallurgical constituents
Metals
Misfit dislocations
Morphology
Nanochannels
Physics
Thickness
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Zusammenfassung:Helium (He)-filled cavities in single-phase metals typically take on nearly equiaxed shapes, such as spherical bubbles or voids. However, in multiphase metal composites, the morphology of the constituent phases and the structure of the interfaces between them alter the shapes of such He-filled cavities. In this work, a He-implanted three-layer composite consisting of a 5-nm-thick Cu layer sandwiched between two V layers was reexamined. In addition to He-filled nanochannels, which have been reported in this material before, we discovered faceted He-filled “pancakes,” viz. high-aspect-ratio cavities spanning the thickness of the Cu layer and extending several tens of nanometers parallel to the Cu/V interfaces. We propose that such pancakes form nanochannels via a multistage coarsening process.
ISSN:1047-4838
1543-1851
DOI:10.1007/s11837-019-03870-5