Interfacial Free Energy Controlling Glass-Forming Ability of Cu-Zr Alloys

نویسندگان

  • Dong-Hee Kang
  • Hao Zhang
  • Hanbyeol Yoo
  • Hyun Hwi Lee
  • Sooheyong Lee
  • Geun Woo Lee
  • Hongbo Lou
  • Xiaodong Wang
  • Qingping Cao
  • Dongxian Zhang
  • Jianzhong Jiang
چکیده

Glass is a freezing phase of a deeply supercooled liquid. Despite its simple definition, the origin of glass forming ability (GFA) is still ambiguous, even for binary Cu-Zr alloys. Here, we directly study the stability of the supercooled Cu-Zr liquids where we find that Cu64Zr36 at a supercooled temperature shows deeper undercoolability and longer persistence than other neighbouring compositions with an equivalent driving Gibbs free energy. This observation implies that the GFA of the Cu-Zr alloys is significantly affected by crystal-liquid interfacial free energy. In particular, the crystal-liquid interfacial free energy of Cu64Zr36 in our measurement was higher than that of other neighbouring liquids and, coincidently a molecular dynamics simulation reveals a larger glass-glass interfacial energy value at this composition, which reflects more distinct configuration difference between liquid and crystal phase. The present results demonstrate that the higher crystal-liquid interfacial free energy is a prerequisite of good GFA of the Cu-Zr alloys.

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عنوان ژورنال:

دوره 4  شماره 

صفحات  -

تاریخ انتشار 2014