Improving soft magnetic properties in FINEMET-like alloys. A study

•An interesting way to study soft magnetic properties on FINEMET-like alloys is presented.•The crystallized fraction is a parameter of great interest in the present study.•The magnetostriction constant of crystalline phase is also an important parameter.•Both mentioned parameters can be easily modif...

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Bibliographic Details
Published in:Journal of alloys and compounds 2015-02, Vol.622, p.635-639
Main Author: Moya, J.A.
Format: Article
Language:English
Subjects:
Alloys
Aluminum
Coercive field
Coercive force
Crystallization
Ferrous alloys
Germanium
Magnetic properties
Microstructure
Nanocrystalline alloys
Nanostructure
Random anisotropy model
Soft magnetic materials
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Summary:•An interesting way to study soft magnetic properties on FINEMET-like alloys is presented.•The crystallized fraction is a parameter of great interest in the present study.•The magnetostriction constant of crystalline phase is also an important parameter.•Both mentioned parameters can be easily modified with alloying elements.•The study can be set to be used in other soft magnetic nanocrystalline systems. An approach to improve the soft magnetic properties of nanocomposite FINEMET-like alloys is presented by the study of the theoretical behavior of the coercive field with the crystallized fraction, Hc(νcr), curves where the total anisotropy is taken into account. These curves can exhibit a minimum value that should be used for a proper design of soft magnetic alloys, consisting in matching that value with the optimal crystallized fraction of the alloy. For this, the effect of Si, Ge, Co and Al on the magnetic properties on the material phases and on its microstructure was analyzed while a good relationship between theoretical results and data in the literature was found. Small amounts of Ge and/or Al can improve the magnetic properties of FINEMET while the addition of Co deteriorates the coercive field as is predicted by the theory. Simultaneous addition of two or more solute elements to the α-Fe crystals was also evaluated and discussed. Results indicate the importance of knowing the effect of the alloying element on the crystalline magnetostriction constant and on the crystallized fraction of the microstructure.
ISSN:0925-8388
1873-4669
DOI:10.1016/j.jallcom.2014.10.124