Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers
Sterwerf C, Kaub T, Deng C, Thompson GB, Li L (2017)
THIN SOLID FILMS 626: 184-189.
Zeitschriftenaufsatz
| Veröffentlicht | Englisch
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Autor*in
Sterwerf, ChristianUniBi;
Kaub, Tyler;
Deng, Chuang;
Thompson, Gregory B.;
Li, Lin
Einrichtung
Abstract / Bemerkung
A transition of deformation modes from shear banding to co-deformation subject to nanoindentation was revealed by a systematic experimental study of multilayers of amorphous-Cu45Zr55 (at.%)/crystalline-Cu. The Cu45Zr55 was fixed at 150 nm where the Cu layers varied from 5 nm to 150 nm. At the 5 nm Cu layer thickness, the shear bands propagated through both layer types physically splitting the Cu layers. Upon increasing the Cu to 25 nm, the shear bands were able to propagate through the amorphous layer but only locally bend the Cu layers. At the 150 nm Cu layer thicknesses, the two phases co-deformed without clear evidence of shear propagation through the multilayer structure. Using molecular dynamics simulations, the spatial correlation of the shear transformation zones in the amorphous layers as a function of various Cu thicknesses was investigated. The simulations revealed.a percolation created by the indent impression of the strain localization initiated in the amorphous layers above and below the Cu layer prior to shear banding. This spatial correlation condition was suspected to shear the Cu layer from both sides if the Cu layer is sufficiently thin. (C) 2017 Elsevier B.V. All rights reserved.
Stichworte
Amorphous/crystalline multilayers;
Metallic glass;
Shear banding;
Co-deformation;
Shear transformation zone
Erscheinungsjahr
2017
Zeitschriftentitel
THIN SOLID FILMS
Band
626
Seite(n)
184-189
ISSN
0040-6090
Page URI
https://pub.uni-bielefeld.de/record/2911018
Zitieren
Sterwerf C, Kaub T, Deng C, Thompson GB, Li L. Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers. THIN SOLID FILMS. 2017;626:184-189.
Sterwerf, C., Kaub, T., Deng, C., Thompson, G. B., & Li, L. (2017). Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers. THIN SOLID FILMS, 626, 184-189. doi:10.1016/j.tsf.2017.02.035
Sterwerf, Christian, Kaub, Tyler, Deng, Chuang, Thompson, Gregory B., and Li, Lin. 2017. “Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers”. THIN SOLID FILMS 626: 184-189.
Sterwerf, C., Kaub, T., Deng, C., Thompson, G. B., and Li, L. (2017). Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers. THIN SOLID FILMS 626, 184-189.
Sterwerf, C., et al., 2017. Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers. THIN SOLID FILMS, 626, p 184-189.
C. Sterwerf, et al., “Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers”, THIN SOLID FILMS, vol. 626, 2017, pp. 184-189.
Sterwerf, C., Kaub, T., Deng, C., Thompson, G.B., Li, L.: Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers. THIN SOLID FILMS. 626, 184-189 (2017).
Sterwerf, Christian, Kaub, Tyler, Deng, Chuang, Thompson, Gregory B., and Li, Lin. “Deformation mode transitions in amorphous-Cu45Zr55/crystalline-Cu multilayers”. THIN SOLID FILMS 626 (2017): 184-189.
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