Title :
Hot-pressed Mn-Zn-Ni and Mn-Zn-Co ferrites for magnetic recording heads
Author :
Babbar, Vijay K. ; Puri, Rajinder K.
Author_Institution :
Sch. of Basic & Appl. Sci., Thapar Inst. of Eng. & Technol., Patiala, India
fDate :
1/1/1992 12:00:00 AM
Abstract :
Ni2+ and Co2+ substituted Mn-Zn ferrites have been developed as high-density magnetic recording materials by hot pressing using optimum sintering parameters. Ferrite series of the composition Mn0.6Zn0.4-xNixFe2 O4 and Mn0.6Zn0.4-yCoyFe2O4 were prepared by the hot-pressing technique wherein x and y varied from 0.0 to 0.4 in steps of 0.05. It yielded ferrites with improved magnetic properties having higher hardness (⩾650 Vickers units), low porosity (<0.1%), and small grain size (≈10 μm). The initial permeability increased, whereas the coercive field decreased for an Ni2+ concentration x or a Co 2+ concentration y equal to 0.05. Maximum values of saturation magnetization equal to 4850 and 5250 G were obtained for x and y equal to 0.225 and 0.275, respectively. The Curie temperature increased appreciably, whereas the DC resistivity decreased for a larger substitution of Ni2+ and Co2+ ions
Keywords :
Curie temperature; cobalt compounds; coercive force; electrical conductivity of crystalline semiconductors and insulators; ferrite applications; ferrites; grain size; hardness; hot pressing; magnetic heads; magnetic hysteresis; magnetic permeability; magnetisation; manganese compounds; nickel compounds; porosity; sintering; zinc compounds; 10 micron; Curie temperature; DC resistivity; Mn0.6Zn0.4-xNxFe2O 4 ferrite; Mn0.6Zn0.4-yCoyFe2O 4; coercive field; grain size; hardness; high-density magnetic recording materials; hot pressing; magnetic properties; magnetic recording heads; optimum sintering parameters; permeability; porosity; saturation magnetization; Ferrites; Grain size; Iron; Magnetic materials; Magnetic properties; Magnetic recording; Permeability; Pressing; Saturation magnetization; Zinc;
Journal_Title :
Magnetics, IEEE Transactions on
