Ni-based bulk amorphous alloys in the Ni-Ti-Zr-(Si,Sn) system

S. Yi; T. G. Park; D. H. Kim

doi:10.1557/JMR.2000.0348

Ni-based bulk amorphous alloys in the Ni-Ti-Zr-(Si,Sn) system

S. Yi, T. G. Park, D. H. Kim

Yonsei University

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

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Abstract

New Ni-based bulk amorphous alloys in the alloy system Ni-Ti-Zr-(Si,Sn) were developed through systematic alloy design based upon the empirical rules for high glass forming alloys. Small additions of Si and/or Sn significantly improved the glass forming ability (GFA) of the alloys Ni₅₇Ti_23-xZr₂₀(Si,Sn)_x leading to a Ni-based bulk amorphous alloy. The amorphous ribbons of the alloys Ni₅₇Ti_23-xZr₂₀(Si,Sn)_x exhibited very high glass transition temperatures (T_g > 823 K), crystallization temperatures (T_x > 883 K), and large undercooled liquid regions (ΔT_x > 50 K) implying the high GFA of the alloys. Fully amorphous rods with the diameter of up to 2 mm can be fabricated by a copper mold casting method. Development of the new Ni-based bulk amorphous alloys having high T_g, T_x, and ΔT_x expands the practical applications of amorphous alloys as structural materials.

Original language	English
Pages (from-to)	2425-2430
Number of pages	6
Journal	Journal of Materials Research
Volume	15
Issue number	11
DOIs	https://doi.org/10.1557/JMR.2000.0348
State	Published - Nov 2000

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abstract = "New Ni-based bulk amorphous alloys in the alloy system Ni-Ti-Zr-(Si,Sn) were developed through systematic alloy design based upon the empirical rules for high glass forming alloys. Small additions of Si and/or Sn significantly improved the glass forming ability (GFA) of the alloys Ni57Ti23-xZr20(Si,Sn)x leading to a Ni-based bulk amorphous alloy. The amorphous ribbons of the alloys Ni57Ti23-xZr20(Si,Sn)x exhibited very high glass transition temperatures (Tg > 823 K), crystallization temperatures (Tx > 883 K), and large undercooled liquid regions (ΔTx > 50 K) implying the high GFA of the alloys. Fully amorphous rods with the diameter of up to 2 mm can be fabricated by a copper mold casting method. Development of the new Ni-based bulk amorphous alloys having high Tg, Tx, and ΔTx expands the practical applications of amorphous alloys as structural materials.",

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Ni-based bulk amorphous alloys in the Ni-Ti-Zr-(Si,Sn) system

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