DocumentCode :
1015615
Title :
Influence of 
Stoichiometry on Initial Permeability and Temperature Dependence of Core Loss in MnZn Ferrites
Author :
Li, Lezhong ; Lan, Zhongwen ; Yu, Zhong ; Sun, Ke
Author_Institution :
Univ. of Electron. Sci. & Technol. of China, Chengdu
Volume :
44
Issue :
1
fYear :
2008
Firstpage :
13
Lastpage :
16
Abstract :
We investigated the relationship between magnetic properties of MnZn ferrites and Fe2O3 stoichiometry by measuring magnetic properties, electrical resistivity, and density. We used a scanning electron microscope to observe the fractured surface of sintered samples. MnZn ferrites were prepared by adapting the conventional ceramic technique. Toroidal cores were sintered at 1355degC for 4 h with 4% oxygen. The results show that the initial permeability and power losses of MnZn ferrites strongly depend on the content of Fe2O3. And there is an obvious secondary maximum peak in the curve of mui versus T at about 100degC. The initial permeability mui reaches a maximum value and the power loss is lowest over a wide temperature ranging from 20degC to 180degC when the content of Fe2O3 is 52.5 mol%.
Keywords :
electrical resistivity; ferrites; fracture; magnetic permeability; manganese compounds; materials preparation; scanning electron microscopy; sintering; stoichiometry; zinc compounds; Fe2O3; MnZnFe2O3; conventional ceramic technique; electrical resistivity; fractured surface; initial permeability; magnetic properties; scanning electron microscope; sintered samples; stoichiometry; temperature 1355 C; temperature 20 C to 180 C; time 4 h; toroidal cores; $hbox{Fe}_{2}hbox{O}_{3}$
fLanguage :
English
Journal_Title :
Magnetics, IEEE Transactions on
Publisher :
ieee
ISSN :
0018-9464
Type :
jour
DOI :
10.1109/TMAG.2007.910232
Filename :
4407602
Link To Document :
