Abstract
Kinetics of the crystallization process of Fe–Mo–Cu–B-type metallic glass is studied to fine details during heat treatment under weak external magnetic field (0.652T). Structural arrangement as well as magnetic microstructure is followed on-fly using sophisticated method of in situ nuclear forward scattering (NFS) of synchrotron radiation. The latter provides both quantitative (relative fractions) and qualitative (hyperfine magnetic fields) temperature dependencies of all structurally different samples’ components. They belong to the amorphous residual matrix, the newly formed nanocrystalline grains, and to their surfaces, respectively. The onset of crystallization during in-field magnetic annealing starts ∼100K earlier than that in zero field.
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