会议论文详细信息
16th International Conference on Positron Annihilation
Effects of oxide distributed in grain boundaries on microstructure stability of nanocrystalline metals
Zhou, Kai^1 ; Li, Hui^1 ; Pang, Jin Biao^1 ; Wang, Zhu^1
School of Physics, Wuhan University, Wuhan 430072, China^1
关键词: High-pressure compaction;    Microstructure stability;    Nanocrystalline copper;    Nanocrystalline metal;    Nanocrystalline zn;    Open-volume defects;    Positron lifetime spectroscopy;    Radiation resistant materials;   
Others  :  https://iopscience.iop.org/article/10.1088/1742-6596/443/1/012020/pdf
DOI  :  10.1088/1742-6596/443/1/012020
来源: IOP
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【 摘 要 】

Nanocrystalline copper and zinc prepared by high-pressure compaction method have been studied by positron lifetime spectroscopy associated with X-ray diffraction. For nanocrystalline Cu, mean grain sizes of the samples decrease after being annealed at 900 °C and increase during aging at 180 °C, revealing that the atoms exchange between the two regions. The positron lifetime results indicate that the vacancy clusters formed in the annealing process are unstable and decomposed at the aging time below 6 hours. In addition, the partially oxidized surfaces of the nanoparticles hinder the grain growth during the ageing at 180 °C, and the vacancy clusters inside the disorder regions which are related to Cu2O need longer aging time to decompose. In the case of nanocrystalline Zn, the open volume defect (not larger than divacancy) is dominant according to the high relative intensity for the short positron lifetime (τ1). The oxide (ZnO) inside the grain boundaries has been found having an effect to hinder the decrease of average positron lifetime (τav) during the annealing, which probably indicates that the oxide stabilizes the microstructure of the grain boundaries. For both nanocrystalline copper and zinc, the oxides in grain boundaries enhance the thermal stability of the microstucture, in spite of their different crystal structures. This effect is very important for the nanocrystalline materials using as radiation resistant materials.

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