Effect of cooling rate on microstructure and glass-forming ability of a (Ti33Zr33Hf33)70 (Ni50Cu50)20Al10 alloy

K. B. Kim, S. Yi, I. S. Hwang, J. Eckert

Research output: Contribution to journalArticlepeer-review

8 Scopus citations

Abstract

The alloy (Ti33Zr33Hf33)70 (Ni50Cu50)20Al10 developed by equiatomic substitution was prepared by using different quenching rates, i.e. rapid quenching by melt-spinning and relatively slow cooling using suction casting. The microstructural comparison between the as-spun ribbons and the as-cast bulk specimens reveals a different length scale of an icosahedral phase that formed upon solidification. The as-spun sample exhibits a mixture of nano-scale icosahedral, Zr2Cu-type and amorphous phases after complete crystallization at 973 K indicating a high stability of the nano-scale icosahedral phase. Due to its small size (30-50 nm) there is no significant strain in the icosahedral phase. On the other hand, in the as-cast bulk sample Zr2Cu-type and amorphous phases form in the micro-scale modulated icosahedral phase without any discernible exothermic reaction. The structural modulation of the icosahedral phase indicates the occurrence of strains during the growth. The different local accumulation of strain during the growth of the icosahedral phase induces a phase selection between the Zr2Cu-type or amorphous phases in this alloy.

Original languageEnglish
Pages (from-to)972-977
Number of pages6
JournalIntermetallics
Volume14
Issue number8-9
DOIs
StatePublished - Aug 2006

Keywords

  • B. Phase transformation
  • C. Rapid solidification processing
  • F. Electron microscopy, transmission

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