Bulk Metallic Glass (BMG) gains attractions as a candidate for future material in various applications due to its physical and mechanical properties. The fundamental characterization of the crystallization of Mg₅₈Cu₃₁Gd₁₁ has been performed using in-situ synchrotron radiation technique complemented with differential scanning calorimeter (DSC). The glass transition temperature was detected and the occurrence of two step crystallization found during the process. The existence of Mg₂Cu and other more complex compound is suggested.

 Keywords: bulk metallic glass (BMG), synchrotron radiation, crystallization,

G. Yuan and A. Inoue, J. Alloys Compd., 387 (2005), pp. 134-138.

W.L. Johnson. Mater. Sc. Forum, 35:225, 1996.

D.B. Miracle. Nat. Mater., 3:697, 2004.

X.K. Xi, D.Q. Zhao, M.X. Pan and W.H. Wang, Intermetallics, 13 (2005), pp.638-641.

X.K. Xi, R.J. Wang, D.Q. Zhao, M.X. Pan and W.H. Wang, J. Non-Cryst.

Solids, 344 (2004), pp. 105-109.

A. Inoue, A. Kato, T. Zhang, S.G. Kim and T. Masumoto, Mater. Trans. JIM,

(1991), pp. 609-616.

C.T. Liu and Z.P. Lu, Intermetallics, 13 (2005), pp. 415-418.

H. Men, Z.Q. Hu and J. Xu, Scripta Mater., 46 (2002), pp. 699-703.

G. Yuan, T. Zhang and A. Inoue, Mater. Lett., 58 (2004), pp. 3012-3016.

E.S. Park, H.G. Kang, W.T. Kim and D.H. Kim, J. Non-Cryst. Solids, 279

(2001), pp. 154-160.

J.-L. Soubeyroux, S. Puech, and J.-J. Blandin. Mater. Sc. Eng. A, 449-

:253, 2007.