Microstructure of as atomized and annealed U-Mo7 particles: A SEM/EBSD study of grain growth

Microstructure of as atomized and annealed U-Mo7 particles: A SEM/EBSD study of grain growth

Significant progresses in the performances under in-pile irradiation of particular U-Mo based fuels have been observed over the last fifteen years. One of the remaining issues has still to be tackled for use as a LEU fuel in the high power research reactors: the U-Mo recrystallization and its associ...

Full description

Saved in:
Bibliographic Details
Published in:Journal of nuclear materials Vol. 495; no. C; pp. 249 - 266
Main Authors: Iltis, X., Zacharie-Aubrun, I., Ryu, H.J., Park, J.M., Leenaers, A., Yacout, A.M., Keiser, D.D., Vanni, F., Stepnik, B., Blay, T., Tarisien, N., Tanguy, C., Palancher, H.
Format: Journal Article
Language:English
Published: Amsterdam Elsevier B.V 01-11-2017
Elsevier BV
Elsevier
Subjects:
Annealing
Atomizing
EBSD
Grain growth
Grain size
Irradiation
Microstructure
Nanoparticles
Nuclear Experiment
Nuclear fuels
Nuclear research reactor fuels
Nuclear Theory
Particulates
Physics
Powder metallurgy
Precipitates
Radiation
Recrystallization
Rods
Surface preparation
Test procedures
U-Mo
Uranium
Vacuum
Grain growth
Powder metallurgy
U-Mo
Nuclear research reactor fuels
EBSD
grain growth
powder metallurgy
nuclear reactor fuels
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Significant progresses in the performances under in-pile irradiation of particular U-Mo based fuels have been observed over the last fifteen years. One of the remaining issues has still to be tackled for use as a LEU fuel in the high power research reactors: the U-Mo recrystallization and its associated swelling have to be controlled or delayed. One way to mitigate this problem would be to optimize the initial microstructure of U-Mo atomized particle, by homogenizing Mo concentration and increasing grain size. This paper mainly focuses on U-Mo grain growth. Based on samples prepared in the framework of KOMO-5 and EMPIrE tests, a methodological work based on the use of EBSD is presented. In particular, surface preparation procedures are proposed for powders and rods, this last one being most likely readily applicable for plate analysis. As-atomized microstructures are analyzed in detail and subsequently compared to those obtained on particles annealed at 1000 °C under various conditions. It is found that 1 h annealing under vacuum is a good compromise of temperature and time to meet the development goals, provided that few impurity precipitates are present within U-Mo particles, since these can impact grain growth. [Display omitted]
Bibliography:USDOE
AC02-06CH11357; AC07-05ID14517
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2017.07.056