Microcompression study of Al-Nb nanoscale multilayers

Youbin Kim; Arief Suriadi Budiman; J. Kevin Baldwin; Nathan A. Mara; Amit Misra; Seung Min Han

doi:10.1557/jmr.2011.414

Microcompression study of Al-Nb nanoscale multilayers

Youbin Kim, Arief Suriadi Budiman, J. Kevin Baldwin, Nathan A. Mara, Amit Misra, Seung Min Han

Chemical Engineering and Materials Science

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Abstract

Microcompression tests were performed on the Al/Nb multilayers of incoherent interfaces with the layer thicknesses of 5 nm Al/5 nm Nb and 50 nm Al/50 nm Nb. The Al-Nb multilayers showed increase in strength as the layer thickness was reduced; the average flow stresses at 5% plastic strain from the 5 nm Al/5 nm Nb and 50 nm Al/50 nm Nb layer thickness specimens were determined to be 2.1 GPa and 1.4 GPa respectively. The results from this Al-Nb microcompression study were compared with those of the previous report on Cu-Nb multilayer microcompression results that indicated that the flow stresses of the Al-Nb multilayer are lower than those of Cu-Nb with the same bilayer spacing. The observed difference in strength was attributed to a potential difference in the interfacial strength of the two incoherent multilayer systems.

Original language	English (US)
Pages (from-to)	592-598
Number of pages	7
Journal	Journal of Materials Research
Volume	27
Issue number	3
DOIs	https://doi.org/10.1557/jmr.2011.414
State	Published - Feb 14 2012

Keywords

Layered
Nanoscale
Strength

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abstract = "Microcompression tests were performed on the Al/Nb multilayers of incoherent interfaces with the layer thicknesses of 5 nm Al/5 nm Nb and 50 nm Al/50 nm Nb. The Al-Nb multilayers showed increase in strength as the layer thickness was reduced; the average flow stresses at 5% plastic strain from the 5 nm Al/5 nm Nb and 50 nm Al/50 nm Nb layer thickness specimens were determined to be 2.1 GPa and 1.4 GPa respectively. The results from this Al-Nb microcompression study were compared with those of the previous report on Cu-Nb multilayer microcompression results that indicated that the flow stresses of the Al-Nb multilayer are lower than those of Cu-Nb with the same bilayer spacing. The observed difference in strength was attributed to a potential difference in the interfacial strength of the two incoherent multilayer systems.",

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AU - Budiman, Arief Suriadi

AU - Baldwin, J. Kevin

AU - Mara, Nathan A.

AU - Misra, Amit

AU - Han, Seung Min

PY - 2012/2/14

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AB - Microcompression tests were performed on the Al/Nb multilayers of incoherent interfaces with the layer thicknesses of 5 nm Al/5 nm Nb and 50 nm Al/50 nm Nb. The Al-Nb multilayers showed increase in strength as the layer thickness was reduced; the average flow stresses at 5% plastic strain from the 5 nm Al/5 nm Nb and 50 nm Al/50 nm Nb layer thickness specimens were determined to be 2.1 GPa and 1.4 GPa respectively. The results from this Al-Nb microcompression study were compared with those of the previous report on Cu-Nb multilayer microcompression results that indicated that the flow stresses of the Al-Nb multilayer are lower than those of Cu-Nb with the same bilayer spacing. The observed difference in strength was attributed to a potential difference in the interfacial strength of the two incoherent multilayer systems.

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Microcompression study of Al-Nb nanoscale multilayers

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