Effect of neutron irradiation on rhenium cluster formation in tungsten and tungsten-rhenium alloys

To clarify the irradiation hardening behavior of neutron-irradiated tungsten(W), the formation behavior of rhenium(Re)-enriched cluster and W-Re precipitation with displacement damage in fission reactors environment was investigated by the atom probe tomography (APT) technique, and the results obtai...

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Bibliographic Details
Published in:Journal of nuclear materials 2018-08, Vol.507, p.78-86
Main Authors: Hwang, Taehyun, Hasegawa, Akira, Tomura, Keiko, Ebisawa, Naoki, Toyama, Takeshi, Nagai, Yasuyoshi, Fukuda, Makoto, Miyazawa, Takeshi, Tanaka, Teruya, Nogami, Shuhei
Format: Article
Language:English
Subjects:
Alloys
Atom probe tomography
Atoms & subatomic particles
Chemical composition
Clusters
Irradiation
Neutron irradiation
Neutrons
Nuclear reactors
Organic chemistry
Precipitates
Re clusters
Reactors
Rhenium
Rhenium base alloys
Spatial distribution
Tomography
Transmission electron microscopy
Tungsten
Tungsten-rhenium alloys
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Summary:To clarify the irradiation hardening behavior of neutron-irradiated tungsten(W), the formation behavior of rhenium(Re)-enriched cluster and W-Re precipitation with displacement damage in fission reactors environment was investigated by the atom probe tomography (APT) technique, and the results obtained by APT and microstructural observation by transmission electron microscopy (TEM) were compared. Neutron-irradiated pure W and W-10Re alloys were used for the analysis. These samples were irradiated to 0.96 dpa at 538 °C in a fast experimental reactor Joyo, and irradiated to 0.90 dpa at 500 °C in a mixed spectrum reactor HFIR. The chemical compositions of the matrix, Re clusters, and precipitates were determined by the AP analysis. The Joyo-irradiated samples contained lower levels of transmuted Re and Os, while the HFIR-irradiated samples contained higher levels of Re and Os. The Re-enriched clusters demonstrated characteristic spatial distribution related to defect cluster distribution in each irradiated specimen.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2018.04.031