A nanoindentation study of the deformation mode for nanostructured ductile/brittle multilayers: cracking versus shear banding

L. Feng; Q. Zhou; Q. Jia; Y. D. Shi; Y. Wang; X. H. Zhao

doi:10.1080/09500839.2019.1695164

A nanoindentation study of the deformation mode for nanostructured ductile/brittle multilayers: cracking versus shear banding

L. Feng, Q. Zhou, Q. Jia, Y. D. Shi, Y. Wang, X. H. Zhao

School of Materials Sience and Engineering

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

1 Scopus citations

Abstract

Nanostructured multilayer thin films (Ag/W, Cu/Ru, Cu/W), consisting of alternating ductility/brittle layers with wide ranges of modulation period (Λ) and modulation ratio (η), were prepared by magnetron sputtering. Under nanoindentation, cracking and/or shear banding behaviour was observed, which depended directly on the layer thickness of ductile and brittle layers respectively. By considering the distinct competition between crack initiation/propagation in brittle layers and the shielding/anti-shielding effect in ductile layers, the different deformation modes between these multilayers are discussed in terms of a micromechanical fracture criterion. The findings could be used in the design of nanostructured materials for superior toughness and deformation stability.

Original language	English
Pages (from-to)	372-385
Number of pages	14
Journal	Philosophical Magazine Letters
Volume	99
Issue number	10
DOIs	https://doi.org/10.1080/09500839.2019.1695164
State	Published - 3 Oct 2019

Keywords

cracks
interface
Multilayers
nanoindentation
shear bands

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10.1080/09500839.2019.1695164

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abstract = "Nanostructured multilayer thin films (Ag/W, Cu/Ru, Cu/W), consisting of alternating ductility/brittle layers with wide ranges of modulation period (Λ) and modulation ratio (η), were prepared by magnetron sputtering. Under nanoindentation, cracking and/or shear banding behaviour was observed, which depended directly on the layer thickness of ductile and brittle layers respectively. By considering the distinct competition between crack initiation/propagation in brittle layers and the shielding/anti-shielding effect in ductile layers, the different deformation modes between these multilayers are discussed in terms of a micromechanical fracture criterion. The findings could be used in the design of nanostructured materials for superior toughness and deformation stability.",

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AB - Nanostructured multilayer thin films (Ag/W, Cu/Ru, Cu/W), consisting of alternating ductility/brittle layers with wide ranges of modulation period (Λ) and modulation ratio (η), were prepared by magnetron sputtering. Under nanoindentation, cracking and/or shear banding behaviour was observed, which depended directly on the layer thickness of ductile and brittle layers respectively. By considering the distinct competition between crack initiation/propagation in brittle layers and the shielding/anti-shielding effect in ductile layers, the different deformation modes between these multilayers are discussed in terms of a micromechanical fracture criterion. The findings could be used in the design of nanostructured materials for superior toughness and deformation stability.

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A nanoindentation study of the deformation mode for nanostructured ductile/brittle multilayers: cracking versus shear banding

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Keywords

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