Fully dense anisotropic nanocomposite Sm(Co,Fe,Zr,Cu,B){sub z} (z=7.5-12) magnets

Fully dense anisotropic nanocomposite Sm(Co,Fe,Zr,Cu,B){sub z} (z=7.5-12) magnets

Fully dense anisotropic nanocomposite Sm(Co{sub 0.58}Fe{sub 0.31}Zr{sub 0.05}Cu{sub 0.04}B{sub 0.02}){sub z} (z=7.5-12) magnets have been synthesized via rapid hot pressing and hot deformation processes. The highest (BH){sub max}{approx}10.6 MGOe was observed for a magnet with z=10. X-ray diffractio...

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Veröffentlicht in:Journal of applied physics 2005-05, Vol.97 (10)
Hauptverfasser: Huang, M.Q., Turgut, Z., Wheeler, B., Lee, D., Liu, S., Ma, B.M., Peng, Y.G., Chu, S.Y., Laughlin, D.E., Horwath, J.C., Fingers, R.T., University of Dayton Magnetic Laboratory, 300 College Park, Dayton, Ohio 45469, Magnequench Inc., 61 Science Park Road, 01-17 Galen, Singapore 117525, Department of Materials Science and Engineering, Air Force Research Laboratory
Format: Artikel
Sprache:eng
Schlagworte:
ANISOTROPY
BORON ALLOYS
COBALT ALLOYS
COMPOSITE MATERIALS
COPPER ALLOYS
DEFORMATION
HOT PRESSING
HYSTERESIS
INTERMETALLIC COMPOUNDS
IRON ALLOYS
MAGNETIZATION
MATERIALS SCIENCE
NANOSTRUCTURES
PERMANENT MAGNETS
PLASTICITY
SAMARIUM ALLOYS
STACKING FAULTS
TRANSMISSION ELECTRON MICROSCOPY
X-RAY DIFFRACTION
ZIRCONIUM ALLOYS
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Zusammenfassung:Fully dense anisotropic nanocomposite Sm(Co{sub 0.58}Fe{sub 0.31}Zr{sub 0.05}Cu{sub 0.04}B{sub 0.02}){sub z} (z=7.5-12) magnets have been synthesized via rapid hot pressing and hot deformation processes. The highest (BH){sub max}{approx}10.6 MGOe was observed for a magnet with z=10. X-ray diffraction and M-H measurements indicated that the easy magnetization direction of magnets prefers to be in the hot pressing direction. Transmission electron microscopy investigation confirmed that plastic deformation is an important route for forming magnetic anisotropy in the Sm-Co-type nanocomposite magnets. Some stripe and/or platelike patterns have been observed inside the nanograins (50-200 nm), which may present as twins, and stacking faults. The (0001) twins have been observed in the 2:17R phase.
ISSN:0021-8979
1089-7550
DOI:10.1063/1.1851432