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Self-organization of helium precipitates into elongated channels within metal nanolayers.


ABSTRACT: Material degradation due to precipitation of implanted helium (He) is a key concern in nuclear energy. Decades of research have mapped out the fate of He precipitates in metals, from nucleation and growth of equiaxed bubbles and voids to formation and bursting of surface blisters. By contrast, we show that He precipitates confined within nanoscale metal layers depart from their classical growth trajectories: They self-organize into elongated channels. These channels form via templated nucleation of He precipitates along layer surfaces followed by their growth and spontaneous coalescence into stable precipitate lines. The total line length and connectivity increases with the amount of implanted He, indicating that these channels ultimately interconnect into percolating "vascular" networks. Vascularized metal composites promise a transformative solution to He-induced damage by enabling in operando outgassing of He and other impurities while maintaining material integrity.

SUBMITTER: Chen D 

PROVIDER: S-EPMC5681214 | biostudies-literature | 2017 Nov

REPOSITORIES: biostudies-literature

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Self-organization of helium precipitates into elongated channels within metal nanolayers.

Chen Di D   Li Nan N   Yuryev Dina D   Baldwin J Kevin JK   Wang Yongqiang Y   Demkowicz Michael J MJ  

Science advances 20171110 11


Material degradation due to precipitation of implanted helium (He) is a key concern in nuclear energy. Decades of research have mapped out the fate of He precipitates in metals, from nucleation and growth of equiaxed bubbles and voids to formation and bursting of surface blisters. By contrast, we show that He precipitates confined within nanoscale metal layers depart from their classical growth trajectories: They self-organize into elongated channels. These channels form via templated nucleation  ...[more]

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