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Icosahedral symmetry, fragility and stability of supercooled liquid state of metallic glasses

Published online by Cambridge University Press:  13 March 2012

M. Shimono  and
H. Onodera
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Abstract

The fragility of materials should be related to a local structure formed in supercooled liquid states. Especially, in the cases of metallic glasses, the icosahedral order formation is considered to play an important role. To clarify the relation between the local structure formation and the relaxation behavior (or fragility) in the supercooled liquid states of metallic glasses, molecular dynamics simulations were performed for a simple model of binary alloys, in which we can change the atomic size ratio. From the simulation results, we found that the icosahedral clusters exist in supercooled liquid states and form a medium-range network structure in strongly supercooled regime near the glass transition as well as in the glassy states. We also found that the number density of the clusters increases as the atomic size difference increases. Consequently, the calculated fragility parameter takes a lower value in a system with larger atomic size difference due to the richness of the icosahedral clusters.

Keywords

Metallic glassesglass transitionrapid solidificationsupercooled liquidsfragility
Type
Research Article
Information
Metallurgical Research & Technology , Volume 109 , Issue 1 , 2012 , pp. 41 - 46
Copyright
© EDP Sciences 2012

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References

Böhmer, R., Ngai, K.L., Angell, C.A., Plazek, D.J., J. Chem. Phys. 99 (1993) 4201-4209
Inoue, A., Zhang, T., Masumoto, T., Mater. Trans. JIM 31 (1990) 177-183
Parker, A., Johnson, W.L., Appl. Phys. Lett. 63 (1993) 2342-2344
Shintani, H., Tanaka, H., Nature Physics 2 (2006) 200-206
Inoue, A., Mater. Trans. JIM 36 (1995) 866-875
Sanchez, J.M., Barefoot, J.R., Jarrett, R.N., Tien, J.K., Acta Metall. 32 (1984) 1519-1525
Andersen, H.C., J. Chem. Phys. 72 (1980) 2384-2393
Shimono, M., Onodera, H., Scripta Mater. 44 (2001) 1595-1598
Shimono, M., Onodera, H., Mat. Sci. Forum 539-543 (2007) 2031-2035
Busch, R., Bakke, E., Johnson, W.L., Acta Mater. 46 (1998) 4725-4732
Saida, J., Sanada, T., Sato, S., Imafuku, M., Matsubara, E., Inoue, A., Mater. Trans. 48 (2007) 1703-1707
F. Yonezawa, Glass Transition and Relaxation of Disordered Structures, Solid State Physics, Academic Press, San Diego, 1991, Vol. 45
Shimono, M., Onodera, H., Mater. Trans. JIM 39 (1998) 147-153