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Strengthening gold with dispersed nanovoids

Jia-Ji Chen, Hui Xie, Ling-Zhi Liu, Huai Guan, Zesheng You, Lijie Zou, Hai‐Jun Jin

2024Science71 citationsDOI

Abstract

Materials often fail prematurely or catastrophically under load while containing voids, posing a challenge to materials manufacturing. We found that a metal (gold) containing spherical voids with a fraction of up to 10% does not fracture prematurely in tension when the voids are shrunk to the submicron or nanometer scale. Instead, the dispersed nanovoids increase the strength and ductility of the material while simultaneously reducing its weight. Apart from the suppressed stress or strain concentration, such structure provides enormous surface area and promotes surface-dislocation interactions, which enable strengthening and additional strain hardening and thus toughening. Transforming voids from crack-like detrimental defects into a beneficial "ingredient" provides an inexpensive and environmentally friendly approach for the development of a new class of lightweight, high-performance materials.

Topics & Concepts

Materials scienceDuctility (Earth science)Composite materialTougheningStrain hardening exponentHardening (computing)NanometreNanotechnologyToughnessCreepLayer (electronics)Nanoporous metals and alloysAnodic Oxide Films and NanostructuresMicrostructure and mechanical properties
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