Crystallographic orientation dependent of blisters formation on tungsten surface exposed to helium ions
MX Zhang and JT Zhao and X Meng and ZH Chen and Q Wang and XC Guan and TS Wang, JOURNAL OF NUCLEAR SCIENCE AND TECHNOLOGY, 58, 1071-1078 (2021).
DOI: 10.1080/00223131.2021.1911872
The mechanism of crystallographic orientation dependent on helium- induced blister formation in plasma-facing tungsten was studied by helium implantation, scanning electron microscopy (SEM) observation, and molecular dynamics (MD) simulation. In the present work, the electropolished high-purity tungsten was exposed to 18 keV helium ions to a fluence of 1.1 x 10(18) He center dot cm(-2)at room temperature. Combined with the electron backscatter diffraction (EBSD) techniques, scanning electron microscopy observations indicate that crystallographic orientation of the underlying grain controls the behavior of blister formation. It is obvious that different grains developed different morphologies after helium implantation, and the severe blisters with larger size and higher exfoliation ratio were observed on grains oriented near direction. Based on the strain-stress relation obtained from MD simulation, it was found that the blisters on grains with orientation near direction grows quickly and exfoliate firstly, and the severe blistering will be achieved for grains oriented near direction. It could also be foreseen that much higher fluence was expected to introduce more severe blisters on grains near direction.
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