Mapping strain fields induced in Zr-based bulk metallic glasses during in-situ nanoindentation by X-ray nanodiffraction

Gamcova, J.; Mohanty, G.; Michalik, S.; Wehrs, J.; Bednarcik, J.; Krywka, C.; Breguet, J.M.; Michler, J.; Franz, H.

Journalpaper

Mapping strain fields induced in Zr-based bulk metallic glasses during in-situ nanoindentation by X-ray nanodiffraction

Abstract

A pioneer in-situ synchrotron X-ray nanodiffraction approach for characterization and visualization of strain fields induced by nanoindentation in amorphous materials is introduced. In-situ nanoindentation experiments were performed in transmission mode using a monochromatic and highly focused sub-micron X-ray beam on 40 μm thick Zr-based bulk metallic glass under two loading conditions. Spatially resolved X-ray diffraction scans in the deformed volume of Zr-based bulk metallic glass covering an area of 40 × 40 μm2 beneath the pyramidal indenter revealed two-dimensional map of elastic strains. The largest value of compressive elastic strain calculated from diffraction data at 1 N load was −0.65%. The region of high elastic compressive strains (<−0.3%) is located beneath the indenter tip and has radius of 7 μm.

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URL: https://publications.hereon.de/id/36118/
Authors:Gamcova, J., Mohanty, G., Michalik, S., Wehrs, J., Bednarcik, J., Krywka, C., Breguet, J.M., Michler, J., Franz, H.
Year:2016
In: Applied Physics Letters
Volume:108
Issue:3
Pages:031907
Publisher:AIP, Melville, NY
Type:Journalpaper
ISSN: 0003-6951
Cite as: Gamcova, J.; Mohanty, G.; Michalik, S.; Wehrs, J.; Bednarcik, J.; Krywka, C.; Breguet, J.M.; Michler, J.; Franz, H.: Mapping strain fields induced in Zr-based bulk metallic glasses during in-situ nanoindentation by X-ray nanodiffraction. In: Applied Physics Letters. Vol. 108 (2016) 3, 031907. (DOI: /10.1063/1.4939981)