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• W3215871917 endingPage "1875" @default.
• W3215871917 startingPage "1875" @default.
• W3215871917 abstract "Metallic materials produce various structural defects in the radiation environment, resulting in serious degradation of material properties. An important way to improve the radiation-resistant ability of materials is to give the microstructure of materials a self-healing ability, to eliminate the structural defects. The research and development of new radiation-resistant materials with excellent self-healing ability, based on defects control, is one of the hot topics in materials science. Compared with conventional coarse-grained materials, nanocrystalline metals with a high density of grain boundary (GB) show a higher ability to resist radiation damage. However, the mechanism of GB’s absorption of structural defects under radiation is still unclear, and how to take advantage of the GB properties to improve the radiation resistance of metallic materials remains to be further investigated. In recent decades, atomistic simulation has been widely used to study the radiation responses of different metals and their underlying mechanisms. This paper briefly reviews the progress in studying radiation resistance mechanisms of nanocrystalline metals by employing computational simulation at the atomic scale." @default.
• W3215871917 created "2021-12-06" @default.
• W3215871917 creator A5066599847 @default.
• W3215871917 date "2021-11-22" @default.
• W3215871917 modified "2023-10-18" @default.
• W3215871917 title "Understanding the Radiation Resistance Mechanisms of Nanocrystalline Metals from Atomistic Simulation" @default.
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• W3215871917 doi "https://doi.org/10.3390/met11111875" @default.

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