\begin{document}$\left\langle {111} \right\rangle $\end{document} dislocation line was extruded. Finally, the 1/2\begin{document}$\left\langle {111} \right\rangle $\end{document} dislocation line would migrate along the direction of [111] of the grain boundary interface. Moreover, the emission of W interstitial atoms and dislocation extrusion of the helium bubble were not observed in our simulated time scale at the ∑9[110](411) grain boundary. Then we used the NEB method to calculate the diffusion barrier of self-gap atoms in the bulk and at ∑3[211](110) and ∑9[110](411) grain boundaries of W, which explained the simulation results. The migration energy barrier of W self-gap atoms in the bulk and at ∑3[211](110) grain boundary was only a few to a few millielectron volts. So as long as W self-gap atoms dissociated from the surface of the He bubble in the thermal relaxation process, they can be easily migrated out. However, The migration energy of the W self-gap atom at the ∑9[110](411) grain boundary can be from a few tenths to a few electron volts. Even during the thermal relaxation process, the W self-gap atoms dissociated from the surface of the He bubble. It was difficult for the W self-gap atoms migrated out. Finally, the correlation between He bubble size and stress released was given. Either in bulk or at ∑3[211](110) and ∑9[110](411) grain boundaries of W, after the pressure of the helium bubble becomes stable with time, the radius of the helium bubble would increase rapidly whenever the pressure dropped sharply. So there was a small step on the curve of the evolution of the radius of the helium bubble with time. Thus, helium bubbles in W could promote growth by releasing pressure intermittently."> - 必威体育下载

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    Zhou Liang-Fu, Zhang Jing, He Wen-Hao, Wang Dong, Su Xue, Yang Dong-Yang, Li Yu-Hong
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    • Abstract views:8801
    • PDF Downloads:181
    • Cited By:0
    Publishing process
    • Received Date:13 July 2019
    • Accepted Date:09 December 2019
    • Published Online:20 February 2020

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