Mechanical Properties of Irradiated U-10 wt. %Mo Alloy Degraded by Porosity Development

Jason L. Schulthess; Katelyn Baird; Philip Petersen; Daniele Salvato; Hakan Ozaltun; William A. Hanson; Nicholas Ullum; Jeffrey Giglio; James I. Cole

doi:10.1115/1.4064779

Mechanical Properties of Irradiated U-10 wt. %Mo Alloy Degraded by Porosity Development

Jason L. Schulthess, Katelyn Baird, Philip Petersen, Daniele Salvato, Hakan Ozaltun, William A. Hanson, Nicholas Ullum, Jeffrey Giglio, James I. Cole

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

A plate-type nuclear fuel consisting of a solid monolithic foil of U-10 wt. %Mo is under development for use in the United States’ high-performance research reactors. In support of developing this fuel, the fuel has been fabricated for the first time by a commercial fuel vendor and subsequently irradiated in a test reactor. This provides an opportunity to evaluate postirradiation mechanical properties of the commercially fabricated fuel. Four-point bend testing was conducted on the irradiated U-10Mo samples to generate the fuel material properties, including the modulus of elasticity and the bending strength. Although the material behaves in a brittle manner due to the accumulated porosity, a general trend of strength and modulus reduction was found as fission density increases. The data produced was evaluated using both Weibull statistics and a modulus degradation model with recommendations provided.

Original language	English
Article number	031601
Journal	Journal of Nuclear Engineering and Radiation Science
Volume	10
Issue number	3
Early online date	Apr 17 2024
DOIs	https://doi.org/10.1115/1.4064779
State	Published - Jul 2024

Keywords

bending strength
four-point bend test
irradiated mechanical properties
U-10Mo
U-Mo
United States-high performance research reactors (US-HPRR)
Weibull
Young’s modulus

INL Publication Number

INL/JOU-23-75174
163796

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10.1115/1.4064779

Cite this

@article{1460838566df408fb5380be06cf74b62,

title = "Mechanical Properties of Irradiated U-10 wt. %Mo Alloy Degraded by Porosity Development",

abstract = "A plate-type nuclear fuel consisting of a solid monolithic foil of U-10 wt. %Mo is under development for use in the United States{\textquoteright} high-performance research reactors. In support of developing this fuel, the fuel has been fabricated for the first time by a commercial fuel vendor and subsequently irradiated in a test reactor. This provides an opportunity to evaluate postirradiation mechanical properties of the commercially fabricated fuel. Four-point bend testing was conducted on the irradiated U-10Mo samples to generate the fuel material properties, including the modulus of elasticity and the bending strength. Although the material behaves in a brittle manner due to the accumulated porosity, a general trend of strength and modulus reduction was found as fission density increases. The data produced was evaluated using both Weibull statistics and a modulus degradation model with recommendations provided.",

keywords = "bending strength, four-point bend test, irradiated mechanical properties, U-10Mo, U-Mo, United States-high performance research reactors (US-HPRR), Weibull, Young{\textquoteright}s modulus",

author = "Schulthess, {Jason L.} and Katelyn Baird and Philip Petersen and Daniele Salvato and Hakan Ozaltun and Hanson, {William A.} and Nicholas Ullum and Jeffrey Giglio and Cole, {James I.}",

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year = "2024",

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doi = "10.1115/1.4064779",

language = "English",

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journal = "Journal of Nuclear Engineering and Radiation Science",

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AU - Schulthess, Jason L.

AU - Baird, Katelyn

AU - Petersen, Philip

AU - Salvato, Daniele

AU - Ozaltun, Hakan

AU - Hanson, William A.

AU - Ullum, Nicholas

AU - Giglio, Jeffrey

AU - Cole, James I.

PY - 2024/7

Y1 - 2024/7

N2 - A plate-type nuclear fuel consisting of a solid monolithic foil of U-10 wt. %Mo is under development for use in the United States’ high-performance research reactors. In support of developing this fuel, the fuel has been fabricated for the first time by a commercial fuel vendor and subsequently irradiated in a test reactor. This provides an opportunity to evaluate postirradiation mechanical properties of the commercially fabricated fuel. Four-point bend testing was conducted on the irradiated U-10Mo samples to generate the fuel material properties, including the modulus of elasticity and the bending strength. Although the material behaves in a brittle manner due to the accumulated porosity, a general trend of strength and modulus reduction was found as fission density increases. The data produced was evaluated using both Weibull statistics and a modulus degradation model with recommendations provided.

AB - A plate-type nuclear fuel consisting of a solid monolithic foil of U-10 wt. %Mo is under development for use in the United States’ high-performance research reactors. In support of developing this fuel, the fuel has been fabricated for the first time by a commercial fuel vendor and subsequently irradiated in a test reactor. This provides an opportunity to evaluate postirradiation mechanical properties of the commercially fabricated fuel. Four-point bend testing was conducted on the irradiated U-10Mo samples to generate the fuel material properties, including the modulus of elasticity and the bending strength. Although the material behaves in a brittle manner due to the accumulated porosity, a general trend of strength and modulus reduction was found as fission density increases. The data produced was evaluated using both Weibull statistics and a modulus degradation model with recommendations provided.

KW - bending strength

KW - four-point bend test

KW - irradiated mechanical properties

KW - U-10Mo

KW - U-Mo

KW - United States-high performance research reactors (US-HPRR)

KW - Weibull

KW - Young’s modulus

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ER -

Mechanical Properties of Irradiated U-10 wt. %Mo Alloy Degraded by Porosity Development

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Keywords

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