Primary precipitation of icosahedral quasicrystal with rearrangement of constitutional elements in Zr65Al7.5 Cu27.5 glassy alloy with low oxygen impurity

Junji Saida; Hidemi Kato; A. Inoue

doi:10.1557/JMR.2005.0058

Primary precipitation of icosahedral quasicrystal with rearrangement of constitutional elements in Zr₆₅Al_7.5 Cu_27.5 glassy alloy with low oxygen impurity

Junji Saida, Hidemi Kato, A. Inoue

Tohoku University

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

4 Citations (Scopus)

Abstract

The primary transformation reaction of the Zr₆₅Al_7.5Cu_27.5 ternary glassy alloy with a low oxygen impurity of approximately 100 mass ppm was investigated. We have discovered the precipitation of the metastable icosahedral phase with a fine grain size of 50-100 nm in diameter accompanying with the formation of stable Zr₂Cu phase at the annealing temperatures ranging from 715 to 730 K. The lattice spacing of Zr₂Cu phase decreases at higher temperatures, which is attributed to the rearrangement of Zr and Cu in the decomposition of the icosahedral phase. It is suggested that the formation of the icosahedral phase in the primary stage originates from the existence of the quenched-in icosahedral local atomic configuration in the glassy state.

Original language	English
Pages (from-to)	303-306
Number of pages	4
Journal	Journal of Materials Research
Volume	20
Issue number	2
DOIs	https://doi.org/10.1557/JMR.2005.0058
Publication status	Published - 2005 Feb

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title = "Primary precipitation of icosahedral quasicrystal with rearrangement of constitutional elements in Zr65Al7.5 Cu27.5 glassy alloy with low oxygen impurity",

abstract = "The primary transformation reaction of the Zr65Al7.5Cu27.5 ternary glassy alloy with a low oxygen impurity of approximately 100 mass ppm was investigated. We have discovered the precipitation of the metastable icosahedral phase with a fine grain size of 50-100 nm in diameter accompanying with the formation of stable Zr2Cu phase at the annealing temperatures ranging from 715 to 730 K. The lattice spacing of Zr2Cu phase decreases at higher temperatures, which is attributed to the rearrangement of Zr and Cu in the decomposition of the icosahedral phase. It is suggested that the formation of the icosahedral phase in the primary stage originates from the existence of the quenched-in icosahedral local atomic configuration in the glassy state.",

author = "Junji Saida and Hidemi Kato and A. Inoue",

note = "Funding Information: This work has been supported by the Grant-in-Aid of Ministry of Education, Sports, Culture, Science and Technology, Japan, Scientific Research (C) and Priority Area on “Materials Science on Bulk Metallic Glasses.”",

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T1 - Primary precipitation of icosahedral quasicrystal with rearrangement of constitutional elements in Zr65Al7.5 Cu27.5 glassy alloy with low oxygen impurity

AU - Saida, Junji

AU - Kato, Hidemi

AU - Inoue, A.

N1 - Funding Information: This work has been supported by the Grant-in-Aid of Ministry of Education, Sports, Culture, Science and Technology, Japan, Scientific Research (C) and Priority Area on “Materials Science on Bulk Metallic Glasses.”

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N2 - The primary transformation reaction of the Zr65Al7.5Cu27.5 ternary glassy alloy with a low oxygen impurity of approximately 100 mass ppm was investigated. We have discovered the precipitation of the metastable icosahedral phase with a fine grain size of 50-100 nm in diameter accompanying with the formation of stable Zr2Cu phase at the annealing temperatures ranging from 715 to 730 K. The lattice spacing of Zr2Cu phase decreases at higher temperatures, which is attributed to the rearrangement of Zr and Cu in the decomposition of the icosahedral phase. It is suggested that the formation of the icosahedral phase in the primary stage originates from the existence of the quenched-in icosahedral local atomic configuration in the glassy state.

AB - The primary transformation reaction of the Zr65Al7.5Cu27.5 ternary glassy alloy with a low oxygen impurity of approximately 100 mass ppm was investigated. We have discovered the precipitation of the metastable icosahedral phase with a fine grain size of 50-100 nm in diameter accompanying with the formation of stable Zr2Cu phase at the annealing temperatures ranging from 715 to 730 K. The lattice spacing of Zr2Cu phase decreases at higher temperatures, which is attributed to the rearrangement of Zr and Cu in the decomposition of the icosahedral phase. It is suggested that the formation of the icosahedral phase in the primary stage originates from the existence of the quenched-in icosahedral local atomic configuration in the glassy state.

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Primary precipitation of icosahedral quasicrystal with rearrangement of constitutional elements in Zr₆₅Al_7.5 Cu_27.5 glassy alloy with low oxygen impurity

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