NiZn (nickel zinc) ferrite material with high magnetic conductivity and high Curie temperature and preparation method thereof
A technology of ferrite material and high magnetic permeability, which is applied in the field of high magnetic permeability, high Curie temperature, high resistivity NiZn ferrite material and its preparation, can solve the problems of unfavorable cost and reduction, and achieve improvement Effects of reliability, low leakage inductance, and widened operating temperature range
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[0057] The main material of the NiZn ferrite material of the present invention is calculated as an oxide by mole percentage, and the dopant component is calculated by weight percentage as an oxide. High magnetic permeability of the present invention, high Curie temperature and high resistivity NiZn ferrite material and preparation method thereof, comprise the following steps:
[0058] 1) Recipe
[0059] Using 48.5~49.9mol% Fe 2 o 3 , 31.0-34.0mol% ZnO, 4.0-8.0mol% CuO, the balance being NiO;
[0060] 2) Ball milling once
[0061] Mix the above powders evenly in a ball mill for 1 to 3 hours;
[0062] 3) pre-burning
[0063] Dry the ball mill material obtained in step 2, and pre-fire it in a furnace at 800-1000°C for 1-3 hours;
[0064] 4) Doping
[0065] Add the following dopant to the powder obtained in step 3 by weight ratio: 0.001-0.30wt% MoO 3 , 0.001~0.20wt%V 2 o 5 , 0.01~0.40wt% Bi 2 o 3 , 0.001~0.05wt% Nb 2 o 5 , 0.001~0.08wt% nano-TiO 2 ;
[0066] 5) Sec...
Embodiment 1~8
[0079] Embodiments 1-8: A NiZn ferrite material with high magnetic permeability, high Curie temperature and high resistivity and its preparation method, comprising the following steps:
Embodiment 1~4
[0081] 1. Formula
[0082] Embodiment 1~4 master formula sees the following table:
[0083]
[0084] 2. One ball milling
[0085] Mix the above powders evenly in a ball mill for 2 hours;
[0086] 3. Pre-burning
[0087] Dry the ball mill material obtained in step 2, and pre-fire it in a furnace at 950°C for 2 hours;
[0088] 4. Doping
[0089] Add the following dopant by weight ratio to the powder obtained in step 3: 0.12wt% MoO 3 , 0.08wt%V 2 o 5 , 0.02wt% Bi 2 o 3 , 0.003wt% Nb 2 o 5 , 0.002wt% nano-TiO 2 ;
[0090] 5. Secondary ball milling
[0091] The powder obtained in step 4 was ball milled in a ball mill for 6 hours;
[0092] 6. Forming
[0093] Add 10wt% organic binder to the powder obtained in step 5 by weight, mix evenly, and after granulation, press the granular powder into a blank on a press;
[0094] 7. Sintering
[0095] The blank obtained in step 6 was placed in a sintering furnace for sintering, and kept at 1080° C. for 3 hours.
[0096] T...
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