Effective Self-Healing Behavior of Amorphous-Nanocrystalline Alloy Under Neutron Irradiation

MatSciRN: Other Nanomaterials (Topic) Pub Date : 2019-07-05 DOI:10.2139/ssrn.3415190
Fan Xiong, Ming-fei Li, Liang Yang
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引用次数: 4

Abstract

Abstract The issue, structural response of the amorphous-nanocrystalline alloys (ANA) under neutron irradiation, has been investigated by a series of simulations and calculations. It is found that the irradiation-induced vacancies are fully annihilated by the migration of the phase boundary between the nanocrystal and amorphous or liquid zones. In addition, there is an effective self-recovery in the amorphous zone and in particular the nanocrystal region, because the nanocrystal phase is more competitive than the amorphous phase during quenching. This work reveals a unique and effective structural self-healing mechanism in the ANA materials, and will shed light on the development of new materials with high irradiation resistance.
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中子辐照下非晶纳米晶合金的有效自愈行为
摘要通过一系列的模拟和计算研究了中子辐照下非晶纳米晶合金(ANA)的结构响应。结果表明,辐照引起的空位被纳米晶区和非晶区或液相区之间相边界的迁移完全湮灭。此外,在非晶区,特别是纳米晶区存在有效的自恢复,因为纳米晶相在淬火过程中比非晶相更具竞争力。这项工作揭示了ANA材料中独特而有效的结构自愈机制,将为开发高耐辐照新材料提供启示。
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MatSciRN: Other Nanomaterials (Topic)
MatSciRN: Other Nanomaterials (Topic)
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