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Experimental Mechanics

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27-09-2021 | Brief Technical Note

Nano-Indentation Hardness and Strain Hardening of Silicon, Sodium Chloride and Tungsten Crystals

Authors: R. W. Armstrong, W. L. Elban, S. M. Walley

Published in: Experimental Mechanics | Issue 2/2022

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Abstract

Background

A previous review of micro- and nano-indentation hardness tests and their analyses gave emphasis to obtaining measurements of continuous nano-indentation load, P, versus, depth, h, recordings that monitor the full elastic–plastic deformation behavior of a localized crystal volume [1].

Objective

Attention is given to determining the complete, indentation-based, elastic–plastic deformation properties of the local volume, including the initial crystal elastic deformation behavior and, especially to evaluation of post pop-in plastic strain hardening.

Method

Stress–strain calculations are presented for an initial Hertzian elastic loading and follow-on crystal micro- and nano-scale plastic deformation responses [2].

Results

Applied load, P, dependencies on contact diameters, d_i, of silicon crystals are compiled on the basis of elastic, plastic and cracking predictions, giving indication at the lowest P values of an indentation size effect (ISE) for the crystal hardness. Elastic–plastic stress–strain curves are presented for sodium chloride and tungsten crystals. The hardness and strain hardening calculations also demonstrate an influence of the ISE.

Conclusions

The exceptional plastic strain hardening behaviors scale dimensionally with corresponding dislocation interactions and sessile reactions within the very localized plastic indentation zones. There is usefulness in determining elastic modulus values from the initial loading record. Micro- and nano-scale dislocation interactions/reactions account for the high stress and strain hardening levels as well as the occurrence of an ISE.

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Title: Nano-Indentation Hardness and Strain Hardening of Silicon, Sodium Chloride and Tungsten Crystals
Authors: R. W. Armstrong
W. L. Elban
S. M. Walley
Publication date: 27-09-2021
Publisher: Springer US
Published in: Experimental Mechanics / Issue 2/2022
Print ISSN: 0014-4851
Electronic ISSN: 1741-2765
DOI: https://doi.org/10.1007/s11340-021-00777-8

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Abstract

Background

Objective

Method

Results

Conclusions

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