The crystallization behavior and thermal stability of Al(86)Mm(4)Ni(10-x)Fe
(x) alloys were investigated as a function of Fe content. Alloys, produced
by a single roll melt-spinner at a circumferential speed of 52 m/s, reveale
d fully amorphous structures. The thermal stability of the present amorphou
s alloys increased with the increase of Fe content. The activation energy f
or crystallization of alpha -Al increased as the Fe content increased. This
increase of activation energy resulted in the simultaneous precipitation o
f alpha -Al and intermetallic phase observed especially in Al(86)Mm(4)Ni(5)
Fe(5) and Al(86)Mm(4)Ni(2)Fe(8) alloys. The glass transition was observed i
n DSC thermogram only after proper annealing treatment. The effect of alloy
composition on the thermal stability could be explained in terms of the at
omic structure of the amorphous alloy. (C) 2001 Kluwer Academic Publishers.