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    Li Shang-Jie, Chen Zheng, Yun Jiang-Juan, Zhang Jing
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    • The phase-field crystal method is used to analysis the dislocation annihilation and grain boundary migration mechanism in the grain shrink process of the circular grain which has three different misorientations from the matrix grain. Results show that when the misorientation between the circular grain and the matrix grain is 17°, the structure of grain boundary is composed of dislocations whose cores is so near that can not find a single dislocation. This grain boundary can not be explained by the dislocation model. However the circular grain area decreases linearly with time, which is in good agreement with the classical boundary migration theory. When the misorientation is 4°, the grain boundary structure is composed of discrete dislocations. Dislocations climb along the radial dierction and the grain rotation occurs for the circular grain to adjust the space of dislocations in the process of circular grain shrinkage. Reactions may take place with the dislocatins becoming closer. For the misorientation of 10°, portion of the grain boundary is composed of discrete dislocations and portion of dislocations with cores overlapped. Dislocations climb along the radial direction and tangential motion occurs at the same time in the grain shrinkage process. The coupled motion lead to the dislocations becoming close and reacting with each other.
        • Funds:Project supported by the National Natural Science Foundation of China (Grant Nos. 51274167, 51174168) and the Specia- lized Research Fund for the Doctoral of Universities, China (Grant No. NDYD0008).
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      Metrics
      • Abstract views:7164
      • PDF Downloads:757
      • Cited By:0
      Publishing process
      • Received Date:30 December 2013
      • Accepted Date:18 February 2014
      • Published Online:05 June 2014

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