An improved model for the prediction of He bubbles driven W fuzz growth at different temperatures
Author:
Funder
National Key Research and Development Program of China
Publisher
Elsevier BV
Subject
Nuclear Energy and Engineering,General Materials Science,Nuclear and High Energy Physics
Reference27 articles.
1. The influence of plasma-surface interaction on the performance of tungsten at the ITER divertor vertical targets;De Temmerman;Plasma Phys. Controll. Fusion,2018
2. Enhanced fuzzy tungsten growth in the presence of tungsten deposition;McCarthy;Nucl. Fusion,2020
3. Formation of helium induced nanostructure ‘fuzz’ on various tungsten grades;Baldwin;J. Nucl. Mater.,2010
4. Formation process of tungsten nanostructure by the exposure to helium plasma under fusion relevant plasma conditions;Kajita;Nucl. Fusion,2009
5. The effect of fusion-relevant He ion flux on the evolution of He nano-bubbles in W;Ni;Plasma Phys. Controlled Fusion,2020
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1. A novel plasma-facing NdB6 particulate reinforced W1Ni matrix composite: Powder metallurgical fabrication, microstructural and mechanical characterization;International Journal of Refractory Metals and Hard Materials;2024-11
2. Competitive barrier and trapping effects of helium bubbles on hydrogen isotopes migration behavior in tungsten;Journal of Nuclear Materials;2024-10
3. Tungsten fuzz growth at low temperatures (<900 K) on a surface with nanocones;Nuclear Materials and Energy;2024-06
4. Temperature-dependent bubble growth under synergistic interactions of hydrogen and helium in tungsten;Nuclear Fusion;2024-04-12
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