Crystallization of Al₂FeZr₆ Amorphous Alloy Prepared by Mechanical Alloying

Abstract

Amorphous Al₂FeZr₆ alloy was prepared from elemental powders by mechanical alloying. The microstructure evolution was identified by X-ray diffraction. The thermal stability of amorphous Al₂FeZr₆ was determined by DTA. There are two overlapped exothermic peaks observed in curves of DTA. This indicates that two exothermic reactions in the procedure of crystallization of amorphous Al₂FeZr₆ alloy. The effective activation energies of crystallization were evaluated using Kissinger’s plot. The evaluated values of effective activation energy corresponding to the first and the second exothermic reactions are 266 and 299 kJ/mole respectively. The products of crystallization of amorphous Al₂FeZr₆ alloy are binary intermetallic compounds AlZr₂ and FeZr₂ instead of intermetallic compounds Al₂FeZr₆. It was explained by comparing their relative stabilities based on enthalpies of formation of intermetallic compounds.