4.8 Article

Size Effect Suppresses Brittle Failure in Hollow Cu60Zr40 Metallic Glass Nanolattices Deformed at Cryogenic Temperatures

NANO LETTERS (2015)

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Journal

NANO LETTERS
Volume 15, Issue 9, Pages 5673-5681

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/acs.nanolett.5b01034

Keywords

Metallic glass; nanolattice; plasticity; elasticity; buckling

Categories

Chemistry, Multidisciplinary Chemistry, Physical Nanoscience & Nanotechnology Materials Science, Multidisciplinary Physics, Applied Physics, Condensed Matter

Funding

  1. NASA Early Career Grant National Science Foundation Graduate Research Fellowship [DGE-1144469]

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To harness smaller is more ductile behavior emergent at nanoscale and to proliferate it onto materials with macroscale dimensions, we 140 produced hollow-tube Cu60Zr40 metallic glass nanolattices with the layer thicknesses of 120, 60, and 20 nm. They exhibit unique transitions in deformation mode with tube-wall thickness and temperature. Molecular dynamics simulations and analytical models were used to interpret these unique transitions in terms of size effects on the plasticity of metallic glasses and elastic instability.

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