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Effects of Thermal Treatment on the Co-rolled U-Mo Fuel Foils

Published online by Cambridge University Press:  27 April 2015

Jan-Fong Jue ,
Dennis D. Keiser Jr. ,
Tammy L. Trowbridge ,
Cynthia R. Breckenridge ,
Brady L. Mackowiak ,
Glenn A. Moore ,
Barry H. Rabin  and
Mitchell K. Meyer
Jan-Fong Jue
Affiliation:
Idaho National Laboratory, 2525 Fremont Avenue, Idaho Falls, ID 83415, U.S.A.
Dennis D. Keiser Jr.
Affiliation:
Idaho National Laboratory, 2525 Fremont Avenue, Idaho Falls, ID 83415, U.S.A.
Tammy L. Trowbridge
Affiliation:
Idaho National Laboratory, 2525 Fremont Avenue, Idaho Falls, ID 83415, U.S.A.
Cynthia R. Breckenridge
Affiliation:
Idaho National Laboratory, 2525 Fremont Avenue, Idaho Falls, ID 83415, U.S.A.
Brady L. Mackowiak
Affiliation:
Idaho National Laboratory, 2525 Fremont Avenue, Idaho Falls, ID 83415, U.S.A.
Glenn A. Moore
Affiliation:
Idaho National Laboratory, 2525 Fremont Avenue, Idaho Falls, ID 83415, U.S.A.
Barry H. Rabin
Affiliation:
Idaho National Laboratory, 2525 Fremont Avenue, Idaho Falls, ID 83415, U.S.A.
Mitchell K. Meyer
Affiliation:
Idaho National Laboratory, 2525 Fremont Avenue, Idaho Falls, ID 83415, U.S.A.
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Abstract

A monolithic fuel design based on U–Mo alloy has been selected as the fuel type for conversion of United States’ high-performance research reactors (USHPRRs) from highly enriched uranium (HEU) to low-enriched uranium (LEU). In this fuel design, a thin layer of zirconium is used to eliminate the direct interaction between the U–Mo fuel meat and the aluminum-alloy cladding during irradiation. The co-rolling process used to bond the Zr barrier layer to the U–Mo foil during fabrication alters the microstructure of both the U–10Mo fuel meat and the U–Mo/Zr interface. This work studied the effects of post-rolling annealing treatment on the microstructure of the co-rolled U–Mo fuel meat and the U–Mo/Zr interaction layer. The U–Mo/Zr interaction-layer thickness increased with the annealing temperature with an Arrhenius constant for growth of 184kJ/mole, consistent with a previous diffusion-couple study. The phases in the U–Mo/Zr interaction layer produced by co-rolling, however, differ from those reported in the previous diffusion-couple study.

Keywords

nuclear materialsmicrostructurebarrier layer
Type
Articles
Information
MRS Online Proceedings Library (OPL) , Volume 1743: Symposium DD/WW – Materials and Radiation Effects for Advanced Nuclear Technologies , 2015 , mrsf14-1743-dd13-04
Copyright
Copyright © Materials Research Society 2015 

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References

REFERENCES

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