Metastable Phases And Crystallization Products In Nanocrystalline Finemet-Type Alloys With Re Addition
The melt spun nanocrystalline alloys such as Fe(73.5)Cu(1)Nb(3)Si(13.5)B(9) (FINEMET) have attracted great deal of interest in recent years due to their excellent soft magnetic properties mostly related to the exchange coupling between nanograins, through the amorphous matrix. The microstructural ev...
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Veröffentlicht in: | Journal of Optoelectronics and Advanced Materials 2003-09, Vol.5 (3), p.709-711 |
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creator | Crisan, A D LeBreton, J M Crisan, O Filoti, G |
description | The melt spun nanocrystalline alloys such as Fe(73.5)Cu(1)Nb(3)Si(13.5)B(9) (FINEMET) have attracted great deal of interest in recent years due to their excellent soft magnetic properties mostly related to the exchange coupling between nanograins, through the amorphous matrix. The microstructural evolution of both nanocrystalline and amorphous residual phases during annealing of the ribbons give rise to crystallization products that determine the expected magnetic properties for specific applications. Upon addition of the rare earth (RE), the evolution of the crystalline phases which emerge from metastable precursors during annealing is investigated. It is expected that the RE presence should strongly modify both the phase structure via new ternary metastable precursors and the magnetic properties of the ribbons by inducing enhanced exchange correlation due to novel ternary crystalline phases. |
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The microstructural evolution of both nanocrystalline and amorphous residual phases during annealing of the ribbons give rise to crystallization products that determine the expected magnetic properties for specific applications. Upon addition of the rare earth (RE), the evolution of the crystalline phases which emerge from metastable precursors during annealing is investigated. 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The microstructural evolution of both nanocrystalline and amorphous residual phases during annealing of the ribbons give rise to crystallization products that determine the expected magnetic properties for specific applications. Upon addition of the rare earth (RE), the evolution of the crystalline phases which emerge from metastable precursors during annealing is investigated. 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