Detailed characterization of a PWR fuel rod at high burnup in support of LOCA testing

F. Cappia, K. Wright, D. Frazer, K. Bawane, B. Kombaiah, W. Williams, S. Finkeldei, F. Teng, J. Giglio, M. N. Cinbiz, B. Hilton, J. Strumpell, R. Daum, K. Yueh, C. Jensen, D. Wachs

Research output: Contribution to journalArticlepeer-review

14 Scopus citations

Abstract

Experimental investigations of the fuel microstructure and volatile fission products along the pellet of a high burnup specimen (local burnup 76 GWd/tHM) have been conducted to support future transient testing. Detailed microscopy examinations have been carried out at different length scales. Transmission electron microscopy has highlighted a significant amount of damage across the entire radius with the formation of networks of dislocations. The optical and scanning electron microscopy determined the formation of three zones in the pellet with different characteristics. An intermediate region with no grain subdivision, lower porosity than the central zone porosity and high retained fission gas in nanometric bubbles and in the matrix was present between r/r0 ≈ 0.55 and 0.8. The high retention of gas in this region might suggest that the region will be prone to fine fragmentation, in addition to the HBS. An abrupt transition in the structure was observed at mid radius, with a third region developing from the mid radius to the pellet center. In this part of the pellet, metallic and grey phases with size between hundreds of nanometers and a few micrometers have formed at grain boundaries. The majority of fission gas has been released from the grain matrix and the original grains have polygonised, forming sub-grain domains separated by low-angle grain boundaries. No final explanation can be given for the polygonization occurring in the center, but on the basis of the irradiation history and the analysis of all the post irradiation examination (PIE) data, it is postulated that the polygonization within the original grains is an effect of dynamic recovery occurring at high temperature in the fuel center.

Original languageEnglish
Article number153881
JournalJournal of Nuclear Materials
Volume569
DOIs
StatePublished - Oct 2022
Externally publishedYes

Funding

This work was funded by the Advanced Fuels Campaign of the Fuel Cycle R&D program, by the Nuclear Science User Facility (Proposal #19-1796 ) in the Office of Nuclear Energy, US Department of Energy, and by EPRI. The authors are indebted to B. Frickey and S. Hayne (INL) for the sample preparation and to all HFEF and IMCL operation staff for technical and administrative support to the PIE.

FundersFunder number
U.S. Department of Energy
Office of Nuclear Energy
Electric Power Research Institute

    Keywords

    • EBSD
    • EPMA
    • Fragmentation
    • Grain subdivision
    • HBS
    • High Burnup UO2
    • TEM

    Fingerprint

    Dive into the research topics of 'Detailed characterization of a PWR fuel rod at high burnup in support of LOCA testing'. Together they form a unique fingerprint.

    Cite this