Exploring constituent redistribution in irradiated U-19Pu-14Zr fuel via electron probe microanalysis

Karen E. Wright*, Lindsey Lecrivain, Cortney Pincock, Magen Coleman, Pamela Wiscaver, Beau Barker, Luiza Gimenes Rodrigues Albuquerque, Luca Capriotti, Assel Aitkaliyeva

*Corresponding author for this work

Research output: Contribution to journalArticleScientificpeer-review

Abstract

The phenomena of constituent redistribution, wherein a previously homogeneous metallic fuel forms discrete, radially concentric compositional zones upon irradiation was investigated by examining an irradiated U-19Pu-14Zr fuel (where numbers represent wt. %) with a burnup of 11.5 at.% with electron probe microanalysis (EPMA) and quadruple inductively coupled plasma mass spectroscopy (Q-ICP-MS).

EPMA-generated U, Pu, and Zr compositional data obtained from a diameter traverse of the sample was converted to mass and was used to: 1) compare the overall fuel element analysis results between the two methods, 2) determine the number of compositionally distinct zones forming as a result of constituent redistribution; and 3) quantify the post-irradiation loss or gain of U, Pu, and Zr atoms in each distinct compositional zone.

Weight percent concentrations of U, Pu, and Zr for the overall cross section compare favorably between the two analytical methods, suggesting that the spatially resolved EPMA analysis complements bulk chemical analysis.

Among the four identified compositional zones, post-irradiation quantification of U, Pu, and Zr elemental atom content changes shows that the quantity of U atoms lost from the innermost zone is slightly less than the quantity of U atoms gained by the middle two zones, and the quantity of Zr atoms lost from the high-U third zone is slightly less than is gained by the two innermost zones. Pu is lost from all four zones, although the innermost zone and the high-U third zone lose a significantly higher percentage (> 22 %) of their initial Pu atoms than the other two zones. For all three elements, EPMA cannot distinguish between atoms lost due to transport to a different zone from atoms lost due to nuclear processes; however, the insight gained from using this process can be used to experiment with new modeling techniques to predict constituent redistribution in U-Pu-Zr fuels.
Original languageEnglish
Article number155411
Number of pages13
JournalJournal of Nuclear Materials
Volume603
DOIs
Publication statusPublished - 2025

Bibliographical note

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Keywords

  • Constituent redistribution
  • Electron probe microanalysis
  • Irradiated
  • U-Pu-Zr fuel

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