Correlation between dislocation density and pop-in phenomena in aluminum studied by nanoindentation and electron channeling contrast imaging

Afrooz Barnoush; Markus T. Welsch; Horst Vehoff

doi:10.1016/j.scriptamat.2010.04.048

Correlation between dislocation density and pop-in phenomena in aluminum studied by nanoindentation and electron channeling contrast imaging

Afrooz Barnoush^*, Markus T. Welsch, Horst Vehoff

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

62 Citations (Scopus)

Abstract

A combination of electron channeling contrast imaging and nanoindentation tests was conducted to reveal the interconnected nature of the pop-in (yield point phenomena) with the underlying dislocation substructure in aluminum. Using digital image processing, it was possible to reveal the dislocation substructure in a bulk sample. It is shown that a very low dislocation density is necessary to observe the pop-in, and at high dislocation density the dislocation sources become activated instead of dislocation nucleation.

Original language	English
Pages (from-to)	465-468
Number of pages	4
Journal	Scripta Materialia
Volume	63
Issue number	5
DOIs	https://doi.org/10.1016/j.scriptamat.2010.04.048
Publication status	Published - Sept 2010
Externally published	Yes

Keywords

Aluminum
Dislocation structure
Homogeneous nucleation
Yield phenomena

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10.1016/j.scriptamat.2010.04.048

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abstract = "A combination of electron channeling contrast imaging and nanoindentation tests was conducted to reveal the interconnected nature of the pop-in (yield point phenomena) with the underlying dislocation substructure in aluminum. Using digital image processing, it was possible to reveal the dislocation substructure in a bulk sample. It is shown that a very low dislocation density is necessary to observe the pop-in, and at high dislocation density the dislocation sources become activated instead of dislocation nucleation.",

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AU - Welsch, Markus T.

AU - Vehoff, Horst

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N2 - A combination of electron channeling contrast imaging and nanoindentation tests was conducted to reveal the interconnected nature of the pop-in (yield point phenomena) with the underlying dislocation substructure in aluminum. Using digital image processing, it was possible to reveal the dislocation substructure in a bulk sample. It is shown that a very low dislocation density is necessary to observe the pop-in, and at high dislocation density the dislocation sources become activated instead of dislocation nucleation.

AB - A combination of electron channeling contrast imaging and nanoindentation tests was conducted to reveal the interconnected nature of the pop-in (yield point phenomena) with the underlying dislocation substructure in aluminum. Using digital image processing, it was possible to reveal the dislocation substructure in a bulk sample. It is shown that a very low dislocation density is necessary to observe the pop-in, and at high dislocation density the dislocation sources become activated instead of dislocation nucleation.

KW - Aluminum

KW - Dislocation structure

KW - Homogeneous nucleation

KW - Yield phenomena

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Correlation between dislocation density and pop-in phenomena in aluminum studied by nanoindentation and electron channeling contrast imaging

Abstract

Keywords

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