Add to ORKG\u3cp\u3eIn this work, the microstructure evolution in the near-surface of tungsten under hydrogen (H)plasma exposure conditions was observed by means of scanning electron microscopy (SEM), plasma focused ion beam (FIB)and transmission electron microscopy (TEM)techniques. Blisters, with existing dislocations distributed around obviously, were observed beneath the tungsten surface when the exposure temperature was 573 K, which was rarely reported in previous studies. However, H bombardment at 1273 K did not lead to the formation of blister-like microstructures. Correspondingly, irradiation hardening occurred after low temperature exposure, but not after high temperature exposure, according to the Berkovich nano-indentation experiments. In or...
Tungsten samples were heat-treated to achieve partial recrystallization and exposed to high ion flux...
By irradiating a tungsten sample for transmission electron microscopy with deuterium plasma at 230 K...
This study presents experimental results on hydrogen blister formation on powder metallurgy tungsten...
In this work, the microstructure evolution in the near-surface of tungsten under hydrogen (H)plasma ...
Due to a lack of direct experimental results, the detailed mechanisms that govern the blistering beh...
Intense hydrogen plasma interactions with tungsten occur in the divertor region of ITER and the effe...
We have performed a combined study using transmission electron microscopy (TEM), nuclear reaction an...
Surface hardness of tungsten after high flux deuterium plasma exposure has been characterized by nan...
We have performed a combined study using transmission electron microscopy (TEM), nuclear reaction an...
Despite being a subject of long-term research on fusion-reactor structural materials, the behaviour ...
Hydrogen exposure has been found to result in metal embrittlement. In this work, we use nanoindentat...
Knowledge of a material’s thermal stability under extreme synergistic particle and heat loads is cru...
In this work, we have investigated the evolution of the hardness of tungsten under successive therma...
Tungsten samples were heat-treated to achieve partial recrystallization and exposed to high ion flux...
By irradiating a tungsten sample for transmission electron microscopy with deuterium plasma at 230 K...
This study presents experimental results on hydrogen blister formation on powder metallurgy tungsten...
In this work, the microstructure evolution in the near-surface of tungsten under hydrogen (H)plasma ...
Due to a lack of direct experimental results, the detailed mechanisms that govern the blistering beh...
Intense hydrogen plasma interactions with tungsten occur in the divertor region of ITER and the effe...
We have performed a combined study using transmission electron microscopy (TEM), nuclear reaction an...
Surface hardness of tungsten after high flux deuterium plasma exposure has been characterized by nan...
We have performed a combined study using transmission electron microscopy (TEM), nuclear reaction an...
Despite being a subject of long-term research on fusion-reactor structural materials, the behaviour ...
Hydrogen exposure has been found to result in metal embrittlement. In this work, we use nanoindentat...
Knowledge of a material’s thermal stability under extreme synergistic particle and heat loads is cru...
In this work, we have investigated the evolution of the hardness of tungsten under successive therma...
Tungsten samples were heat-treated to achieve partial recrystallization and exposed to high ion flux...
By irradiating a tungsten sample for transmission electron microscopy with deuterium plasma at 230 K...
This study presents experimental results on hydrogen blister formation on powder metallurgy tungsten...