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Hierarchical nanostructured aluminum alloy with ultrahigh strength and large plasticity.


ABSTRACT: High strength and high ductility are often mutually exclusive properties for structural metallic materials. This is particularly important for aluminum (Al)-based alloys which are widely commercially employed. Here, we introduce a hierarchical nanostructured Al alloy with a structure of Al nanograins surrounded by nano-sized metallic glass (MG) shells. It achieves an ultrahigh yield strength of 1.2?GPa in tension (1.7?GPa in compression) along with 15% plasticity in tension (over 70% in compression). The nano-sized MG phase facilitates such ultrahigh strength by impeding dislocation gliding from one nanograin to another, while continuous generation-movement-annihilation of dislocations in the Al nanograins and the flow behavior of the nano-sized MG phase result in increased plasticity. This plastic deformation mechanism is also an efficient way to decrease grain size to sub-10 nm size for low melting temperature metals like Al, making this structural design one solution to the strength-plasticity trade-off.

SUBMITTER: Wu G 

PROVIDER: S-EPMC6841713 | biostudies-literature | 2019 Nov

REPOSITORIES: biostudies-literature

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Hierarchical nanostructured aluminum alloy with ultrahigh strength and large plasticity.

Wu Ge G   Liu Chang C   Sun Ligang L   Wang Qing Q   Sun Baoan B   Han Bin B   Kai Ji-Jung JJ   Luan Junhua J   Liu Chain Tsuan CT   Cao Ke K   Lu Yang Y   Cheng Lizi L   Lu Jian J  

Nature communications 20191108 1


High strength and high ductility are often mutually exclusive properties for structural metallic materials. This is particularly important for aluminum (Al)-based alloys which are widely commercially employed. Here, we introduce a hierarchical nanostructured Al alloy with a structure of Al nanograins surrounded by nano-sized metallic glass (MG) shells. It achieves an ultrahigh yield strength of 1.2 GPa in tension (1.7 GPa in compression) along with 15% plasticity in tension (over 70% in compress  ...[more]

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