Title :
Magnetic properties and mechanical strength of MnZn ferrite
Author :
Matsuo, Y. ; Ono, K. ; Hashimoto, T. ; Nakao, F.
Author_Institution :
Adv. Technol. Lab., FDK Corp., Shizuoka, Japan
fDate :
7/1/2001 12:00:00 AM
Abstract :
From MnZn ferrite (“6H20” of FDK production), cores having grain size of about 8~10 μm were produced by controlling the calcination temperature, after-calcination milling time, and sintering conditions. The ferrite powder production conditions and core microstructure were examined to determine their effects on the magnetic properties and mechanical strength of MnZn ferrite cores. A tendency of core loss to decline with a decrease in grain size was confirmed. Strength increased also with a decrease in grain size. Thus, a relation similar to that between strength and fracture toughness in the equation of Griffith-Irwin was noted. By these findings, it has become possible to produce MnZn ferrite cores with lower loss and greater strength
Keywords :
crystal microstructure; ferrites; fracture toughness; grain size; heat treatment; magnetic cores; magnetic leakage; manganese compounds; mechanical strength; sintering; zinc compounds; 8 to 10 mum; Griffith-Irwin equation; MnZn ferrite; MnZn ferrite cores; MnZnFe2O4; after-calcination milling time; calcination temperature; core; core loss; core microstructure; ferrite powder production conditions; fracture toughness; grain size; magnetic properties; mechanical strength; sintering conditions; Calcination; Ferrites; Grain size; Magnetic cores; Magnetic properties; Milling; Powders; Production; Size control; Temperature control;
Journal_Title :
Magnetics, IEEE Transactions on
