Masoud Kasraie scite author profile

Nanoindentation and electron microscopy have been used to examine the length-scale-dependent stress relaxation mechanisms in well-annealed, high-purity indium at a homologous temperature of 0.69. The experimental methods, analysis, and observations serve as a stepping stone in identifying the stress relaxation mechanisms enabling the formation and growth of metallic dendrites originating at the buried interface between a metallic anode and a solid electrolyte separator. Indium’s load–displacement data are found to be very similar to that of high-purity lithium. Residual hardness impressions show two distinct surface morphologies. Based on these morphologies, the measured hardness, and the estimated pile-up volume, it is proposed that residual impressions exhibiting significant pile-up are the result of deformation dominated by interface diffusion. Alternatively, impressions with no significant pile-up are taken to be the result of shear-driven dislocation glide. An analytical model is presented to rationalize the pile-up profile using interface diffusion.

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High-Performance Supercapacitors Based on One-Dimensional Polymeric Nanocomposites

Kasraie¹,

Tian²,

Wang³

et al. 2022

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On the correlation between the stress exponent for creep determined by nanoindentation and the mechanism of action enabling stress relief in indium

Mallakpour

Kasraie

Herbert

et al. 2023

Journal of Materials Research

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Additive Manufacturing of Functional Polymer Composites

Kasraie¹

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Masoud Kasraie

Additive manufacturing of conductive and high-strength epoxy-nanoclay-carbon nanotube composites

Length-scale-dependent stress relief mechanisms in indium at high homologous temperatures

High-Performance Supercapacitors Based on One-Dimensional Polymeric Nanocomposites

On the correlation between the stress exponent for creep determined by nanoindentation and the mechanism of action enabling stress relief in indium

Additive Manufacturing of Functional Polymer Composites

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