This study focuses on a Co-based nanocrystalline alloy (Co 84.55 Fe4.45Zr7B4)) with potential for long-term high temperature use. As an indication of their performance, core losses were measured on toroidal samples using a Walker AC permeameter over a frequency range of 0.1 to 500 kHz, at induction amplitudes of 100, 300, and 500 ml, and temperatures from 22 to 300 degree C. For a given frequency and maximum induction amplitude, the losses were invariant as a function of measurement temperature. Vibrating sample magnetometry provided the magnetization and hysteretic losses as a function of temperature. As the temperature of the alloy was raised to 300 degree C from room temperature, the saturation magnetization (120 emu/g)was reduced by less than 15%. A toroid was aged at 300 degree C for up to 300 hours and core loss measured as a function of aging time at the previously mentioned frequencies and induction amplitudes. The losses were invariant over the aging time.
Nanocrystalline soft magnetic alloys for space applications
2005
6 Seiten, 4 Quellen
Aufsatz (Konferenz)
Englisch
amorphe Legierung , Anwendung in der Luft- und Raumfahrt , Resonanzfrequenz , Magnetometer , Magnetisierung , Hysterese , Mikrostruktur , Kristallisation , hochauflösende Elektronenmikroskopie , magnetische Legierung , Curie-Temperatur , Cobalteisenlegierung , Zirkoniumzusatz , Borzusatz , nanokristalline Legierung , weichmagnetische Legierung
Nanocrystalline Soft Magnetic Alloys for Space Applications
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