高速弹丸撞击诱发超细晶粒铝中 9R 相。

High-velocity projectile impact induced 9R phase in ultrafine-grained aluminium.

机构信息

School of Materials Engineering, Purdue University, West Lafayette, IN, 47907, USA.

Department of Materials Science and NanoEngineering, Rice University, Houston, TX, 77005, USA.

出版信息

Nat Commun. 2017 Nov 21;8(1):1653. doi: 10.1038/s41467-017-01729-4.

DOI:10.1038/s41467-017-01729-4

PMID:29162804

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5698461/

Abstract

Aluminium typically deforms via full dislocations due to its high stacking fault energy. Twinning in aluminium, although difficult, may occur at low temperature and high strain rate. However, the 9R phase rarely occurs in aluminium simply because of its giant stacking fault energy. Here, by using a laser-induced projectile impact testing technique, we discover a deformation-induced 9R phase with tens of nm in width in ultrafine-grained aluminium with an average grain size of 140 nm, as confirmed by extensive post-impact microscopy analyses. The stability of the 9R phase is related to the existence of sessile Frank loops. Molecular dynamics simulations reveal the formation mechanisms of the 9R phase in aluminium. This study sheds lights on a deformation mechanism in metals with high stacking fault energies.

摘要

铝由于其高堆垛层错能，通常通过全位错进行变形。虽然孪晶在铝中很难发生，但在低温和高应变速率下可能会发生。然而，9R 相在铝中很少出现，仅仅是因为其巨大的堆垛层错能。在这里，通过使用激光诱导抛射物冲击测试技术，我们在平均晶粒尺寸为 140nm 的超细晶粒铝中发现了一个数十纳米宽的变形诱导的 9R 相，这通过广泛的冲击后显微镜分析得到了证实。9R 相的稳定性与静止弗兰克环的存在有关。分子动力学模拟揭示了铝中 9R 相的形成机制。这项研究为高堆垛层错能金属的变形机制提供了新的认识。

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高速弹丸撞击诱发超细晶粒铝中 9R 相。

High-velocity projectile impact induced 9R phase in ultrafine-grained aluminium.

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