Effects of tantalum alloying on surface morphology and deuterium retention in tungsten exposed to deuterium plasma

Tungsten and tungsten-tantalum alloy with tantalum concentration of 10 wt%, sintered by spark plasma sintering, were exposed to deuterium plasma at ∼500 K with flux of 1 × 1021–1 × 1022 D m−2s−1, an ion energy of 40 eV and fluence of 1 × 1025–1 × 1026 D m−2. After exposure, a large number of blister...

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Bibliographic Details
Published in:Journal of nuclear materials 2019-08, Vol.522, p.80-85
Main Authors: Wang, Zheng, Wang, Jun, Yuan, Yue, Cheng, Long, Qin, Shao-Yang, Kreter, Arkadi, Lu, Guang-Hong
Format: Article
Language:English
Subjects:
Alloying effects
Blistering
Blisters
Dependence
Deuterium
Deuterium plasma
Deuterium retention
Exposure
Fluence
Irradiation
Morphology
Plasma sintering
Radiation
Retention
Spark plasma sintering
Surface morphology
Tantalum
Tantalum alloying
Tantalum base alloys
Tungsten
Tungsten base alloys
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Summary:Tungsten and tungsten-tantalum alloy with tantalum concentration of 10 wt%, sintered by spark plasma sintering, were exposed to deuterium plasma at ∼500 K with flux of 1 × 1021–1 × 1022 D m−2s−1, an ion energy of 40 eV and fluence of 1 × 1025–1 × 1026 D m−2. After exposure, a large number of blisters with an average size of 1–2 μm form on the surface of tungsten, and the area density of blisters increases with increasing irradiation fluence. However, the dominant morphology on the surface of tungsten-tantalum alloy is characterized by the striped microstructure, and exhibits a strong grain-orientation dependence. TDS results show two major desorption peaks located at ∼650 K and ∼770 K for tungsten and tungsten-tantalum alloy, respectively. Furthermore, the deuterium retention in tungsten is 4–6 times more than that in the tungsten-tantalum alloy. It is suggested that tantalum alloying can be expected to suppress the surface blistering and reduce the deuterium retention in tungsten.
ISSN:0022-3115
1873-4820
DOI:10.1016/j.jnucmat.2019.05.010