Glass forming ability and crystallization behavior of Al-Ni-RE metallic glasses

Z. Zhang; X. Z. Xiong; W. Zhou; X. Lin; A. Inoue; J. F. Li

doi:10.1016/j.intermet.2013.05.003

Glass forming ability and crystallization behavior of Al-Ni-RE metallic glasses

Z. Zhang, X. Z. Xiong, W. Zhou, X. Lin, A. Inoue, J. F. Li

School of Materials Sience and Engineering

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

37 Scopus citations

Abstract

Atomic size may change due to the interaction between different elements when pure metals are synthesized into alloys. In present paper, the effective atomic radii instead of the nominal radii were introduced in the cluster line method to predict the optimum glass forming compositions in Al-based Al-Ni-RE (RE = La, Y, Ce, Gd, Dy) systems. Wedge-shaped samples of the alloys were suction cast under well-controlled condition to experimentally determine the dependence of the glass forming ability (GFA) on the composition. It is found that such a modification to the method makes the prediction very close to the experimental results. When the effective atomic radii are used to calculate the topological instability parameter originally proposed by Egami and Waseda, λ′, the λ′ corresponding to the best GFA in each Al-Ni-RE system linearly changes with the radius of the RE element. Meantime, the onset temperature of crystallization and mixing enthalpy linearly increase with the λ′.

Original language	English
Pages (from-to)	23-31
Number of pages	9
Journal	Intermetallics
Volume	42
DOIs	https://doi.org/10.1016/j.intermet.2013.05.003
State	Published - 2013

Keywords

A. Aluminides, miscellaneous
B. Glasses, metallic
B. Thermal stability
C. Rapid solidification processing

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10.1016/j.intermet.2013.05.003

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title = "Glass forming ability and crystallization behavior of Al-Ni-RE metallic glasses",

abstract = "Atomic size may change due to the interaction between different elements when pure metals are synthesized into alloys. In present paper, the effective atomic radii instead of the nominal radii were introduced in the cluster line method to predict the optimum glass forming compositions in Al-based Al-Ni-RE (RE = La, Y, Ce, Gd, Dy) systems. Wedge-shaped samples of the alloys were suction cast under well-controlled condition to experimentally determine the dependence of the glass forming ability (GFA) on the composition. It is found that such a modification to the method makes the prediction very close to the experimental results. When the effective atomic radii are used to calculate the topological instability parameter originally proposed by Egami and Waseda, λ′, the λ′ corresponding to the best GFA in each Al-Ni-RE system linearly changes with the radius of the RE element. Meantime, the onset temperature of crystallization and mixing enthalpy linearly increase with the λ′.",

keywords = "A. Aluminides, miscellaneous, B. Glasses, metallic, B. Thermal stability, C. Rapid solidification processing",

author = "Z. Zhang and Xiong, {X. Z.} and W. Zhou and X. Lin and A. Inoue and Li, {J. F.}",

year = "2013",

doi = "10.1016/j.intermet.2013.05.003",

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volume = "42",

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journal = "Intermetallics",

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T1 - Glass forming ability and crystallization behavior of Al-Ni-RE metallic glasses

AU - Zhang, Z.

AU - Xiong, X. Z.

AU - Zhou, W.

AU - Lin, X.

AU - Inoue, A.

AU - Li, J. F.

PY - 2013

Y1 - 2013

N2 - Atomic size may change due to the interaction between different elements when pure metals are synthesized into alloys. In present paper, the effective atomic radii instead of the nominal radii were introduced in the cluster line method to predict the optimum glass forming compositions in Al-based Al-Ni-RE (RE = La, Y, Ce, Gd, Dy) systems. Wedge-shaped samples of the alloys were suction cast under well-controlled condition to experimentally determine the dependence of the glass forming ability (GFA) on the composition. It is found that such a modification to the method makes the prediction very close to the experimental results. When the effective atomic radii are used to calculate the topological instability parameter originally proposed by Egami and Waseda, λ′, the λ′ corresponding to the best GFA in each Al-Ni-RE system linearly changes with the radius of the RE element. Meantime, the onset temperature of crystallization and mixing enthalpy linearly increase with the λ′.

AB - Atomic size may change due to the interaction between different elements when pure metals are synthesized into alloys. In present paper, the effective atomic radii instead of the nominal radii were introduced in the cluster line method to predict the optimum glass forming compositions in Al-based Al-Ni-RE (RE = La, Y, Ce, Gd, Dy) systems. Wedge-shaped samples of the alloys were suction cast under well-controlled condition to experimentally determine the dependence of the glass forming ability (GFA) on the composition. It is found that such a modification to the method makes the prediction very close to the experimental results. When the effective atomic radii are used to calculate the topological instability parameter originally proposed by Egami and Waseda, λ′, the λ′ corresponding to the best GFA in each Al-Ni-RE system linearly changes with the radius of the RE element. Meantime, the onset temperature of crystallization and mixing enthalpy linearly increase with the λ′.

KW - A. Aluminides, miscellaneous

KW - B. Glasses, metallic

KW - B. Thermal stability

KW - C. Rapid solidification processing

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DO - 10.1016/j.intermet.2013.05.003

M3 - 文章

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SN - 0966-9795

VL - 42

SP - 23

EP - 31

JO - Intermetallics

JF - Intermetallics

ER -

Glass forming ability and crystallization behavior of Al-Ni-RE metallic glasses

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Keywords

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