https://doi.org/10.1051/epjap:2001179
Magnetic properties and domain structures in stress-annealed FeZrB-(Cu)-(Nb) nanocrystalline ribbons
Magnetic Materials team, LESiR/CNAM-ENS Cachan 61, avenue Pr. Wilson, 94235 Cachan Cedex, France
Corresponding author: benchabi@lesir.ens-cachan.fr
Received:
15
January
2001
Revised:
10
May
2001
Accepted:
10
May
2001
Published online: 15 September 2001
Magnetic properties of nanocrystalline FeZrB-(Cu)-(Nb) compared to FeSiBCuNb are reported.
Observations of domain patterns by magneto-optical Kerr effect (MOKE) method presented herein highlight
qualitatively the incidence of stress-annealing on the induced anisotropy in soft magnetic materials. Transverse fine
domains found in FeSiBCuNb alloys are consistent to a magneto-elastic interpretation of the stress-induced
anisotropy. Nevertheless, it is not the case for FeZrB-(Cu)-(Nb) family where we observe a pronounced longitudinal
induced anisotropy. According to the so-called “back stress effect” advanced by Herzer, the negative 
of bcc α-Fe
grains, as well of bcc α-FeSi grains, should yield transverse anisotropy. Nowadays, this surprising feature is not
still clear. For a technical standpoint, stress-induced anisotropy is interesting for new magnetic components in power
electronics.
PACS: 75.60.Ch – Domain walls and domain structure / 75.60.Ej – Magnetization curves, hysteresis, Barkhausen, Barkhausen and related effects / 81.07.Bc – Nanocrystalline materials
© EDP Sciences, 2001
