Oxidation induced amorphous stabilization of the subsurface region in Zr-Cu metallic glass

K. R. Lim; J. M. Park; S. H. Park; M. Y. Na; K. C. Kim; W. T. Kim; D. H. Kim

doi:10.1063/1.4862025

Oxidation induced amorphous stabilization of the subsurface region in Zr-Cu metallic glass

K. R. Lim, J. M. Park, S. H. Park, M. Y. Na, K. C. Kim, W. T. Kim, D. H. Kim

Department of Materials Science and Engineering

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

15 Citations (Scopus)

Abstract

In the present study, we demonstrate that selective surface oxidation of Zr₇₀Cu₃₀ metallic glass can stabilize the amorphous structure in the subsurface region of the matrix. The oxidation proceeds by selective oxidation of Zr, forming monoclinic ZrO₂ layer on the surface, and the subsurface layer becomes Cu-enriched due to back diffusion of Cu atoms from the oxide layer. Interestingly, in this system, the composition change in the subsurface region leads to enhancement of glass stability, forming of a double layered surface structure consisted of inner amorphous layer and outer monoclinic ZrO₂ layer even when the remaining matrix is completely crystallized.

Original language	English
Article number	031604
Journal	Applied Physics Letters
Volume	104
Issue number	3
DOIs	https://doi.org/10.1063/1.4862025
Publication status	Published - 2014 Jan 20

All Science Journal Classification (ASJC) codes

Physics and Astronomy (miscellaneous)

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10.1063/1.4862025

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title = "Oxidation induced amorphous stabilization of the subsurface region in Zr-Cu metallic glass",

abstract = "In the present study, we demonstrate that selective surface oxidation of Zr70Cu30 metallic glass can stabilize the amorphous structure in the subsurface region of the matrix. The oxidation proceeds by selective oxidation of Zr, forming monoclinic ZrO2 layer on the surface, and the subsurface layer becomes Cu-enriched due to back diffusion of Cu atoms from the oxide layer. Interestingly, in this system, the composition change in the subsurface region leads to enhancement of glass stability, forming of a double layered surface structure consisted of inner amorphous layer and outer monoclinic ZrO2 layer even when the remaining matrix is completely crystallized.",

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AU - Lim, K. R.

AU - Park, J. M.

AU - Park, S. H.

AU - Na, M. Y.

AU - Kim, K. C.

AU - Kim, W. T.

AU - Kim, D. H.

PY - 2014/1/20

Y1 - 2014/1/20

N2 - In the present study, we demonstrate that selective surface oxidation of Zr70Cu30 metallic glass can stabilize the amorphous structure in the subsurface region of the matrix. The oxidation proceeds by selective oxidation of Zr, forming monoclinic ZrO2 layer on the surface, and the subsurface layer becomes Cu-enriched due to back diffusion of Cu atoms from the oxide layer. Interestingly, in this system, the composition change in the subsurface region leads to enhancement of glass stability, forming of a double layered surface structure consisted of inner amorphous layer and outer monoclinic ZrO2 layer even when the remaining matrix is completely crystallized.

AB - In the present study, we demonstrate that selective surface oxidation of Zr70Cu30 metallic glass can stabilize the amorphous structure in the subsurface region of the matrix. The oxidation proceeds by selective oxidation of Zr, forming monoclinic ZrO2 layer on the surface, and the subsurface layer becomes Cu-enriched due to back diffusion of Cu atoms from the oxide layer. Interestingly, in this system, the composition change in the subsurface region leads to enhancement of glass stability, forming of a double layered surface structure consisted of inner amorphous layer and outer monoclinic ZrO2 layer even when the remaining matrix is completely crystallized.

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Oxidation induced amorphous stabilization of the subsurface region in Zr-Cu metallic glass

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