D. Barb et al., MOSSBAUER INVESTIGATION OF AMORPHOUS-TO-CRYSTALLINE TRANSFORMATION OFFE62NI16B14SI8 BY ISOTHERMAL ANNEALING, Hyperfine interactions, 94(1-4), 1994, pp. 2187-2192
Room temperature transmission Mossbauer spectra of Fe62Ni16B14Si8 ribb
ons, annealed in vacuum for time periods ranging from 5 to 60 minutes
at the crystallization temperature T-x = 720 K, have been used to inve
stigate the crystallization mechanism by isothermal annealing. Reorien
tation of the magnetic anisotropy almost normal to the ribbon plane wa
s observed and correlated to the annealing time dependence of the mean
hyperfine field (HF) of the amorphous component. Crystallization star
ted at the surface before the bulk and was found to occur in two steps
: a metastable equilibrium of the amorphous phase with (FeNi), (FeNi)S
i and t-(FeNi)(3)B, followed by the decomposition of t-(FeNi)(3)B into
t-(FeNi)(2)B and (FeNi). The increase of the mean magnetic moment at
the Fe sites as compared to related iron-based alloys was attributed t
o compositional small Ni additions.