Correlation between microstructure and softmagnetic properties of FeCuNbSiB based alloys

“…1,2 Up until now, several methods have been proposed to form NCs, such as deposition on substrates, recrystallization following severe plastic deformation, precipitation of a secondary phase, and crystallization from an amorphous state. Compared with the former three methods, crystallization from an amorphous state has some advantages, such as relative ease in modifying the grain size of NCs and high-density strain free interfaces.…”

Formation of oriented nanocrystals in an amorphous alloy by focused-ion-beam irradiation

“…1,2 Up until now, several methods have been proposed to form NCs, such as deposition on substrates, recrystallization following severe plastic deformation, precipitation of a secondary phase, and crystallization from an amorphous state. Compared with the former three methods, crystallization from an amorphous state has some advantages, such as relative ease in modifying the grain size of NCs and high-density strain free interfaces.…”

Formation of oriented nanocrystals in an amorphous alloy by focused-ion-beam irradiation

“…Nanocrystalline materials have been employed for wide scientific areas because of their excellent functional properties, for example, physical, chemical, and mechanical properties as a consequence of their high density of interfaces, compared with conventional coarse-grained materials [1,2]. Nanocrystalline materials have been employed for wide scientific areas because of their excellent functional properties, for example, physical, chemical, and mechanical properties as a consequence of their high density of interfaces, compared with conventional coarse-grained materials [1,2].…”

Effects of P Content on Morphology of Nanocrystals Induced by FIB Irradiation in Ni-P Amorphous Alloy

Nanocrystalline Soft Magnetic Alloys Two Decades of Progress