Impact of SEM acquisition parameters on the porosity analysis of irradiated U-Mo fuel

Impact of SEM acquisition parameters on the porosity analysis of irradiated U-Mo fuel

[Display omitted] •Scanning electron microscopy (SEM) is usually employed to analyze fission gas porosity in irradiated U-Mo fuel.•In back-scattered electron (BSE) mode, the electron beam voltage, among various acquisition parameters, strongly affects the way fission gas bubbles are imaged and, as s...

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Veröffentlicht in:Nuclear materials and energy 2023-09, Vol.36, p.101469, Article 101469
Hauptverfasser: Salvato, D., Smith, C.A., Ye, B., Mei, Z.-G., Yacout, A.M., Van Eyken, J., Miller, B.D., Keiser, D.D., Glagolenko, I.Y., Giglio, J.J., Robinson, A.B., Leenaers, A., Wight, J., Henley, J.L.
Format: Artikel
Sprache:eng
Schlagworte:
25228
Fission gas bubbles
HEU
Image analysis
LEU
NUCLEAR FUEL CYCLE AND FUEL MATERIALS
Porosity analysis
RERTR
Scanning electron microscopy
U-Mo fuel
USHPRR
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Zusammenfassung:[Display omitted] •Scanning electron microscopy (SEM) is usually employed to analyze fission gas porosity in irradiated U-Mo fuel.•In back-scattered electron (BSE) mode, the electron beam voltage, among various acquisition parameters, strongly affects the way fission gas bubbles are imaged and, as such, characterized.•The difference is attributed to different electron penetration depths, as corroborated by Monte Carlo simulations, and geometry relations between bubbles and the polished sample surface.•The same, and possibly low (
ISSN:2352-1791
2352-1791
DOI:10.1016/j.nme.2023.101469