Mechanical properties of Au foams under nanoindentation

Ruestes, Carlos Javier
Schwen, Daniel
Millán, Emmanuel Nicolás
Aparicio, Emiliano
Bringa, Eduardo Marcial

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Publication date

May 2018

DOI

10.1016/j.commatsci.2018.02.019

Publisher

Elsevier BV

Journal

Computational Materials Science

Abstract

Nanoscale metallic foams display mechanical properties which make them attractive for a variety of technological applications. We report simulated nanoindentation tests for a model polycrystalline nanoporous gold structure with 11 nm mean filament diameter and 35 nm average grain size, comparable to foams produced by dealloying. Hardness, plasticity mechanisms, the extension of the plastic zone and the applicability of several scaling laws are discussed. Plasticity occurs at the nodes mainly and is dominated by nucleation of dislocations at the atomic steps of the ligament surfaces, in a dislocation accumulation scenario. Shockley partials, perfect dislocations, Hirth partials, Lomer-Cottrel locks and twins were identified. Grain boundary s...

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Mechanical properties of Au foams under nanoindentation

Abstract

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Mechanical properties of Au foams under nanoindentation

Abstract

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