In-situ compression with acoustic emission detection of high pressure torsion deformed Cu38Zr54Al8 metallic glass micropillars

Talaye Arjmandabasi; Dávid Ugi; Ádám Révész; Erhard Schafler; David J. Browne; Zsolt Kovács

doi:10.1016/j.jallcom.2023.171295

In-situ compression with acoustic emission detection of high pressure torsion deformed Cu₃₈Zr₅₄Al₈ metallic glass micropillars

Talaye Arjmandabasi
, Dávid Ugi
, Ádám Révész
, Erhard Schafler
, David J. Browne
, Zsolt Kovács (Corresponding author)

Dynamics of Condensed Systems

Publications: Contribution to journal › Article › Peer Reviewed

Abstract

In-situ compression of Cu38Zr54Al8 metallic glass micropillars in a scanning electron microscope was performed together with continuous acoustic emission recording on samples in the as-cast state and after pre-deformation by high pressure torsion. A size effect was detected in both shear band operation and acoustic emission signal, irrespective of the preliminary deformation. This phenomenon was explained by the size dependent compliance of the pillar/indenter system. Differences between acoustic emission signals from the as-cast and pre-deformed states indicated changes in the shear band formation mechanism due to high pressure torsion. These differences were clear in the elastic regime of the in-situ compression and supported the role of rejuvenation in stabilization of unstable shear bands.

Original language	English
Article number	171295
Number of pages	9
Journal	Journal of Alloys and Compounds
Volume	965
DOIs	https://doi.org/10.1016/j.jallcom.2023.171295
Publication status	Published - 25 Nov 2023

Funding

T. A. is indebted for the Tempus Public Foundation for providing a Stipendium Hungaricum Ph.D. scholarship.

Austrian Fields of Science 2012

210004 Nanomaterials
103018 Materials physics

Keywords

Acoustic emission
High pressure torsion
Metallic glass
Micropillar compression
Size effect

Access to Document

10.1016/j.jallcom.2023.171295Licence: CC BY 4.0

Cite this

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title = "In-situ compression with acoustic emission detection of high pressure torsion deformed Cu38Zr54Al8 metallic glass micropillars",

abstract = "In-situ compression of Cu38Zr54Al8 metallic glass micropillars in a scanning electron microscope was performed together with continuous acoustic emission recording on samples in the as-cast state and after pre-deformation by high pressure torsion. A size effect was detected in both shear band operation and acoustic emission signal, irrespective of the preliminary deformation. This phenomenon was explained by the size dependent compliance of the pillar/indenter system. Differences between acoustic emission signals from the as-cast and pre-deformed states indicated changes in the shear band formation mechanism due to high pressure torsion. These differences were clear in the elastic regime of the in-situ compression and supported the role of rejuvenation in stabilization of unstable shear bands.",

keywords = "Acoustic emission, High pressure torsion, Metallic glass, Micropillar compression, Size effect",

author = "Talaye Arjmandabasi and D{\'a}vid Ugi and {\'A}d{\'a}m R{\'e}v{\'e}sz and Erhard Schafler and Browne, \{David J.\} and Zsolt Kov{\'a}cs",

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doi = "10.1016/j.jallcom.2023.171295",

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TY - JOUR

T1 - In-situ compression with acoustic emission detection of high pressure torsion deformed Cu38Zr54Al8 metallic glass micropillars

AU - Arjmandabasi, Talaye

AU - Ugi, Dávid

AU - Révész, Ádám

AU - Schafler, Erhard

AU - Browne, David J.

AU - Kovács, Zsolt

PY - 2023/11/25

Y1 - 2023/11/25

N2 - In-situ compression of Cu38Zr54Al8 metallic glass micropillars in a scanning electron microscope was performed together with continuous acoustic emission recording on samples in the as-cast state and after pre-deformation by high pressure torsion. A size effect was detected in both shear band operation and acoustic emission signal, irrespective of the preliminary deformation. This phenomenon was explained by the size dependent compliance of the pillar/indenter system. Differences between acoustic emission signals from the as-cast and pre-deformed states indicated changes in the shear band formation mechanism due to high pressure torsion. These differences were clear in the elastic regime of the in-situ compression and supported the role of rejuvenation in stabilization of unstable shear bands.

AB - In-situ compression of Cu38Zr54Al8 metallic glass micropillars in a scanning electron microscope was performed together with continuous acoustic emission recording on samples in the as-cast state and after pre-deformation by high pressure torsion. A size effect was detected in both shear band operation and acoustic emission signal, irrespective of the preliminary deformation. This phenomenon was explained by the size dependent compliance of the pillar/indenter system. Differences between acoustic emission signals from the as-cast and pre-deformed states indicated changes in the shear band formation mechanism due to high pressure torsion. These differences were clear in the elastic regime of the in-situ compression and supported the role of rejuvenation in stabilization of unstable shear bands.

KW - Acoustic emission

KW - High pressure torsion

KW - Metallic glass

KW - Micropillar compression

KW - Size effect

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