Title :
The exchange-spring magnet: a new material principle for permanent magnets
Author :
Kneller, Eckart F. ; Hawig, Reinhard
Author_Institution :
Inst. fuer Werkstoffe der Elektrotech., Ruhf-Univ., Bochum, Germany
fDate :
7/1/1991 12:00:00 AM
Abstract :
It is proposed that permanent magnets can be made of composite materials consisting of two suitably dispersed ferromagnetic and mutually exchange-coupled phases, one of which is hard magnetic in order to provide a high coercive field, while the other may be soft magnetic, just providing a high saturation Js, and should envelop the hard phase regions in order to prevent their corrosion. A general theoretical treatment of such systems shows that one may expect, besides a high energy product (BH)max, a reversible demagnetization curve (exchange-spring) and, in certain cases, an unusually high isotropic remanence ratio Br/Js, while the required volume fraction of the hard phase may be very low, on the order of 10%. The technological realization of such materials is shown to be based on the principle that all phases involved must emerge from a common metastable matrix phase in order to be crystallographically coherent and consequently magnetically exchange coupled.
Keywords :
coercive force; composite materials; demagnetisation; ferromagnetism; magnetic hysteresis; permanent magnets; coercive field; composite materials; corrosion; crystallographically coherent; dispersed ferromagnetic phases; exchange-spring magnet; high energy product; hysteresis loop; isotropic remanence ratio; metastable matrix phase; mutually exchange-coupled phases; permanent magnets; reversible demagnetization curve; theoretical treatment; Composite materials; Corrosion; Crystalline materials; Demagnetization; Magnetic materials; Metastasis; Permanent magnets; Remanence; Saturation magnetization; Soft magnetic materials;
Journal_Title :
Magnetics, IEEE Transactions on
