TEM and XAS investigation of fission gas behaviors in U-Mo alloy fuels through ion beam irradiation

TEM and XAS investigation of fission gas behaviors in U-Mo alloy fuels through ion beam irradiation

In this study, smaller-grained (hundred nano-meter size grain) and larger-grained (micro-meter size grain) U-10Mo specimens have been irradiated (implanted) with 250 keV Xe+ beam and were in situ characterized by TEM. Xe bubbles were not seen in the specimen after an implantation fluence of 2 × 1020...

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Veröffentlicht in:Journal of nuclear materials 2017-10, Vol.494 (C), p.165-171
Hauptverfasser: Zang, Hang, Yun, Di, Mo, Kun, Wang, Kunpeng, Mohamed, Walid, Kirk, Marquis A., Velázquez, Daniel, Seibert, Rachel, Logan, Kevin, Terry, Jeffrey, Baldo, Peter, Yacout, Abdellatif M., Liu, Wenbo, Zhang, Bo, Gao, Yedong, Du, Yang, Liu, Jing
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Sprache:eng
Schlagworte:
Absorption spectroscopy
Alloys
Bubbles
Fission gas behaviors
Grain size
Implantation
Ion irradiation
Irradiation
Metallic alloy fuels
Molybdenum
Nucleation
Spectroscopy
Studies
Temperature
U-Mo alloy
Uranium base alloys
X-ray absorption spectroscopy
XAS
Xe bubble
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container_end_page 171
container_issue C
container_start_page 165
container_title Journal of nuclear materials
container_volume 494
creator Zang, Hang
Yun, Di
Mo, Kun
Wang, Kunpeng
Mohamed, Walid
Kirk, Marquis A.
Velázquez, Daniel
Seibert, Rachel
Logan, Kevin
Terry, Jeffrey
Baldo, Peter
Yacout, Abdellatif M.
Liu, Wenbo
Zhang, Bo
Gao, Yedong
Du, Yang
Liu, Jing
description In this study, smaller-grained (hundred nano-meter size grain) and larger-grained (micro-meter size grain) U-10Mo specimens have been irradiated (implanted) with 250 keV Xe+ beam and were in situ characterized by TEM. Xe bubbles were not seen in the specimen after an implantation fluence of 2 × 1020 ions/m2 at room temperature. Nucleation of Xe bubbles happened during heating of the specimen to a final temperature of 300 °C. By comparing measured Xe bubble statistics, the nucleation and growth behaviors of Xe bubbles were investigated in smaller-grained and larger-grained U-10Mo specimens. A multi-atom kind of nucleation mechanism has been observed in both specimens. X-ray Absorption spectroscopy showed the edge position in the bubbles to be the same as that of Xe gas. The size of Xe bubbles has been shown to be bigger in larger-grained specimens than in smaller-grained specimens at the same implantation conditions.
doi_str_mv 10.1016/j.jnucmat.2017.07.033
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source Elsevier ScienceDirect Journals Complete
subjects Absorption spectroscopy
Alloys
Bubbles
Fission gas behaviors
Grain size
Implantation
Ion irradiation
Irradiation
Metallic alloy fuels
Molybdenum
Nucleation
Spectroscopy
Studies
Temperature
U-Mo alloy
Uranium base alloys
X-ray absorption spectroscopy
XAS
Xe bubble
title TEM and XAS investigation of fission gas behaviors in U-Mo alloy fuels through ion beam irradiation
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