Title :
Fabrication and properties of microforged ferromagnetic nanoflakes
Author :
Walser, R.M. ; Kang, Wooseung
Author_Institution :
Center for Electromagn. Mater. & Devices, Texas Univ., Austin, TX, USA
fDate :
7/1/1998 12:00:00 AM
Abstract :
Ferromagnetic nanoflakes (quasi-oblate spheroids of soft ferromagnetic alloys with submicron thicknesses and aspect ratios of 10-100) can be processed by microforging micron scale powders in a ball mill. Nanoflakes are potentially useful in fabricating microwave effective media, but the magnetic properties of microforged ferromagnetic flakes have not been previously studied. In this study, we produced ferromagnetic nanoflakes from gas atomized powders of several types of Fe, and alloy powders of FeSi and NiFe. SEM micrographs and sieving fractions show that nanoflakes can be made with thicknesses ~0.4 μm, and that more than 95% of the initial powder mass can be converted into nanoflakes with aspect ratios greater than 50. Magnetic measurements show that composites of planar nanoflakes have magnetic remanences ~25% Ms, μ´s that correlate with the aspect ratio (to values >50), and eddy currents suppressed to frequencies >200 MHz
Keywords :
eddy currents; ferromagnetic materials; iron; iron alloys; magnetic permeability; nanostructured materials; nickel alloys; powder metallurgy; remanence; scanning electron microscopy; silicon alloys; soft magnetic materials; Fe; FeSi; NiFe; RF permeability; SEM; alloy powders; aspect ratios; ball mill; composites; eddy currents; fabrication; gas atomized powders; magnetic properties; magnetic remanences; microforged ferromagnetic nanoflakes; micron scale powders; microwave effective media; planar nanoflakes; properties; quasi-oblate spheroids; sieving fractions; soft ferromagnetic alloys; submicron thicknesses; Ball milling; Electromagnetic devices; Fabrication; Iron; Magnetic materials; Magnetic properties; Milling machines; Powders; Soft magnetic materials; Steel;
Journal_Title :
Magnetics, IEEE Transactions on
