Login / Signup

Tracking the sliding of grain boundaries at the atomic scale.

Lihua WangYin ZhangZhi ZengHao ZhouJian HeMingwei ChenMingwei ChenJian HanDavid J SrolovitzJiao TengYizhong GuoGuo YangDeli KongEvan MaYongli HuBaocai YinXiaoxu HuangZe ZhangTing ZhuXiaodong Han
Published in: Science (New York, N.Y.) (2022)
Grain boundaries (GBs) play an important role in the mechanical behavior of polycrystalline materials. Despite decades of investigation, the atomic-scale dynamic processes of GB deformation remain elusive, particularly for the GBs in polycrystals, which are commonly of the asymmetric and general type. We conducted an in situ atomic-resolution study to reveal how sliding-dominant deformation is accomplished at general tilt GBs in platinum bicrystals. We observed either direct atomic-scale sliding along the GB or sliding with atom transfer across the boundary plane. The latter sliding process was mediated by movements of disconnections that enabled the transport of GB atoms, leading to a previously unrecognized mode of coupled GB sliding and atomic plane transfer. These results enable an atomic-scale understanding of how general GBs slide in polycrystalline materials.
Keyphrases
  • electron microscopy
  • gene expression
  • dna methylation