Title :
Greatly Enhanced Permeability and Expanded Bandwidth for Spinel Ferrite Composites With Flaky Fillers
Author :
Li, Z.W. ; Yang, Z.H. ; Huang, R.F. ; Kong, L.B.
Author_Institution :
Temasek Labs., Nat. Univ. of Singapore, Singapore, Singapore
Abstract :
Spinel ferrite flakes are prepared for use as fillers in electromagnetic (EM) composites. EM attenuation composites with the flaky fillers exhibit greatly enhanced high-frequency magnetic properties and attenuation properties. The complex permeability, μ\´r,o and μ"r,max, is enhanced by above 300%, and the relative attenuation bandwidth Wp is increased by 40%, as compared to those for composites with conventional spherical fillers. Wp achieves 80% of the theoretical maximum relative bandwidth. The composites with the flaky fillers are powerful and potential candidates as EM attenuation materials with broad bandwidth at microwave frequency.
Keywords :
composite materials; ferrites; filler metals; magnetic permeability; EM attenuation composites; EM attenuation materials; attenuation bandwidth; broad bandwidth; complex permeability; electromagnetic composites; enhanced permeability; expanded bandwidth; flaky filler; high frequency magnetic property; microwave frequency; spherical filler; spinel ferrite composites; spinel ferrite flakes; Attenuation; Bandwidth; Ferrites; Magnetic properties; Permeability; Powders; Microwave attenuation material; spinel ferrite flaky fillers; ultrabroad attenuation bandwidth;
Journal_Title :
Microwave Theory and Techniques, IEEE Transactions on
DOI :
10.1109/TMTT.2010.2077932
