Structural Relaxation in Fe₇₈Nb₂B₂₀Amorphous Alloy Studied by Mössbauer Spectroscopy

Abstract: It was shown that soft magnetic properties of Fe78Nb2B20 amorphous alloy can be significantly improved by applying 1-h annealing at temperature 623 K (permeability increases even about 8 times). The Mössbauer Spectroscopy technique indicated that the optimized microstructure (corresponding to the maximum magnetic permeability) is free of iron nanograins and should be attributed to annealing out of free volume and a reduction of internal stresses i.e. to the relaxed amorphous phase.

“…Each spectral line was expressed using hyperfine parameters such as hyperfine magnetic field (B hf ), isomeric shift (IS), and quadrupole splitting (Q U A ), and the ratio of the intensities of lines 2 and 5 to lines 3 and 4 of the Mössbauer spectrum was determined. Quadrupole splitting was used for fitting due to the possible noncubic symmetry of atomic configurations around 57 Fe [15]. All fitting parameters of the Mössbauer spectra are listed in Table I.…”

Changes in the Surroundings of the Central Iron Atom in Amorphous Alloys

“…Each spectral line was expressed using hyperfine parameters such as hyperfine magnetic field (B hf ), isomeric shift (IS), and quadrupole splitting (Q U A ), and the ratio of the intensities of lines 2 and 5 to lines 3 and 4 of the Mössbauer spectrum was determined. Quadrupole splitting was used for fitting due to the possible noncubic symmetry of atomic configurations around 57 Fe [15]. All fitting parameters of the Mössbauer spectra are listed in Table I.…”

Changes in the Surroundings of the Central Iron Atom in Amorphous Alloys

Nanocrystallization and soft magnetic properties of Fe23M6 (M: C or B) phase in Fe-based bulk metallic glass