Internal friction of grain boundaries in two-dimensional Yukawa solids

SY Lu and D Huang and C Liang and Y Feng, PHYSICAL REVIEW B, 111, 174112 (2025).

DOI: 10.1103/PhysRevB.111.174112

Langevin dynamics simulations are performed to investigate the grain boundary internal friction (GBIF) in two-dimensional (2D) Yukawa solids under oscillating shear deformations. It is discovered that the GBIF exhibits a significant transition with the increasing misorientation angle, which can be used to distinguish the low-and high-angle grain boundaries (GBs). From the dependence of the GBIF on the shear amplitude and frequency, it is found that the internal friction of high-angle GBs exhibits typical properties of the linear anelasticity, while that of low-angle GBs does not. The variation trend of the calculated GB stiffness with the misorientation angle well agrees with that of GBIF, while the GB stiffnesses of the low-and high-angle GBs are both independent of frequency. For the transition between the low-and high- angle GBs of the misorientation angle B = n/9, the corresponding GB migration exhibits the normal diffusion, completely different from the ballistic motion of the GB migration of other misorientation angles.

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