High-resolution transmission electron microscopy investigation of diffusion in metallic glass multilayer films

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High-resolution transmission electron microscopy investigation of diffusion in metallic glass multilayer films. / Ketov, Sergey V.; Ivanov, Yu. P.; Sopu, Daniel et al.
in: Materials today advances, Jahrgang 2019, Nr. 1, 100004, 07.03.2019.

Publikationen: Beitrag in FachzeitschriftArtikelForschung(peer-reviewed)

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APA

Ketov, S. V., Ivanov, Y. P., Sopu, D., Luguine-Luzgin, D. V., Suryanarayana, C., Rodin, A. O., Schöberl, T., Greer, A. L., & Eckert, J. (2019). High-resolution transmission electron microscopy investigation of diffusion in metallic glass multilayer films. Materials today advances, 2019(1), Artikel 100004. https://doi.org/10.1016/j.mtadv.2019.01.003

Vancouver

Ketov SV, Ivanov YP, Sopu D, Luguine-Luzgin DV, Suryanarayana C, Rodin AO et al. High-resolution transmission electron microscopy investigation of diffusion in metallic glass multilayer films. Materials today advances. 2019 Mär 7;2019(1):100004. doi: 10.1016/j.mtadv.2019.01.003

Author

Ketov, Sergey V. ; Ivanov, Yu. P. ; Sopu, Daniel et al. / High-resolution transmission electron microscopy investigation of diffusion in metallic glass multilayer films. in: Materials today advances. 2019 ; Jahrgang 2019, Nr. 1.

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@article{4242e3b95f214937b55c1ec3cc474ff7,
title = "High-resolution transmission electron microscopy investigation of diffusion in metallic glass multilayer films",
abstract = "Lack of plasticity is one of the main disadvantages of metallic glasses. One of the solutions to this problem can be composite materials. Diffusion bonding is promising for composite fabrication. In the present work the diffusion process in glassy multilayer films was investigated. A combination of advanced transmission electron microscopy (TEM)methods and precision sputtering techniques allows visualization and study of diffusion in amorphous metallic layers with high resolution. Multilayered films were obtained by radio frequency sputter deposition of Zr-Cu and Zr-Pd. The multilayers were annealed under a high vacuum (10 −5 Pa)for 1 and 5 h at 400 °C, that is, well below the crystallization temperatures but very close to the glass-transition temperatures of both types of the glassy layer. The structural evolution in the deposited films was investigated by high-resolution transmission electron microscopy. It was observed that, despite the big differences in the atomic mass and size, Pd and Cu have similar diffusion coefficients. Surprisingly, 1 h of annealing results in formation of metastable copper nanocrystals in the Zr-Cu layers which, however, disappear after 5 h of annealing. This effect may be connected with nanovoid formation under a complex stress state evolving upon annealing, and is related to the exceptionally slow relaxation of the glassy layers sealed with a Ta overlayer. ",
author = "Ketov, {Sergey V.} and Ivanov, {Yu. P.} and Daniel Sopu and D.V. Luguine-Luzgin and C. Suryanarayana and A.O. Rodin and Thomas Sch{\"o}berl and Greer, {A. Lindsay} and J{\"u}rgen Eckert",
year = "2019",
month = mar,
day = "7",
doi = "10.1016/j.mtadv.2019.01.003",
language = "English",
volume = "2019",
journal = "Materials today advances",
issn = "2590-0498",
publisher = "Elsevier Ltd",
number = "1",

}

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TY - JOUR

T1 - High-resolution transmission electron microscopy investigation of diffusion in metallic glass multilayer films

AU - Ketov, Sergey V.

AU - Ivanov, Yu. P.

AU - Sopu, Daniel

AU - Luguine-Luzgin, D.V.

AU - Suryanarayana, C.

AU - Rodin, A.O.

AU - Schöberl, Thomas

AU - Greer, A. Lindsay

AU - Eckert, Jürgen

PY - 2019/3/7

Y1 - 2019/3/7

N2 - Lack of plasticity is one of the main disadvantages of metallic glasses. One of the solutions to this problem can be composite materials. Diffusion bonding is promising for composite fabrication. In the present work the diffusion process in glassy multilayer films was investigated. A combination of advanced transmission electron microscopy (TEM)methods and precision sputtering techniques allows visualization and study of diffusion in amorphous metallic layers with high resolution. Multilayered films were obtained by radio frequency sputter deposition of Zr-Cu and Zr-Pd. The multilayers were annealed under a high vacuum (10 −5 Pa)for 1 and 5 h at 400 °C, that is, well below the crystallization temperatures but very close to the glass-transition temperatures of both types of the glassy layer. The structural evolution in the deposited films was investigated by high-resolution transmission electron microscopy. It was observed that, despite the big differences in the atomic mass and size, Pd and Cu have similar diffusion coefficients. Surprisingly, 1 h of annealing results in formation of metastable copper nanocrystals in the Zr-Cu layers which, however, disappear after 5 h of annealing. This effect may be connected with nanovoid formation under a complex stress state evolving upon annealing, and is related to the exceptionally slow relaxation of the glassy layers sealed with a Ta overlayer.

AB - Lack of plasticity is one of the main disadvantages of metallic glasses. One of the solutions to this problem can be composite materials. Diffusion bonding is promising for composite fabrication. In the present work the diffusion process in glassy multilayer films was investigated. A combination of advanced transmission electron microscopy (TEM)methods and precision sputtering techniques allows visualization and study of diffusion in amorphous metallic layers with high resolution. Multilayered films were obtained by radio frequency sputter deposition of Zr-Cu and Zr-Pd. The multilayers were annealed under a high vacuum (10 −5 Pa)for 1 and 5 h at 400 °C, that is, well below the crystallization temperatures but very close to the glass-transition temperatures of both types of the glassy layer. The structural evolution in the deposited films was investigated by high-resolution transmission electron microscopy. It was observed that, despite the big differences in the atomic mass and size, Pd and Cu have similar diffusion coefficients. Surprisingly, 1 h of annealing results in formation of metastable copper nanocrystals in the Zr-Cu layers which, however, disappear after 5 h of annealing. This effect may be connected with nanovoid formation under a complex stress state evolving upon annealing, and is related to the exceptionally slow relaxation of the glassy layers sealed with a Ta overlayer.

UR - http://www.scopus.com/inward/record.url?scp=85065248983&partnerID=8YFLogxK

U2 - 10.1016/j.mtadv.2019.01.003

DO - 10.1016/j.mtadv.2019.01.003

M3 - Article

VL - 2019

JO - Materials today advances

JF - Materials today advances

SN - 2590-0498

IS - 1

M1 - 100004

ER -