RU1567005C - Ferrite material - Google Patents

Abstract

FIELD: ferrite materials. SUBSTANCE: ferrite material contains 25-33.5 wt% of NiO, 0.4-4 wt% of Zn, 0.3-2.5 wt% of CoO, 0.6-5.0 wt% of WO₃, 0.01-0.7 wt% of Li₂O, 0.15-2.5 wt% of BaO, the remainder is Fe₂O₃. The ferrite material is characterized in that lithium and barium oxides are added into the material so as to reduced magnetic losses. The ferrite material has initial magnetic permeability μ_i of 8-12, Q-factor equal to 150-185 at a frequency of 200MHz and to 75-96 at a frequency of 300 MHz, the product μ_i by Q being equal to 1480-1800 at the first frequency and 720-900 at the second frequency. EFFECT: reduced magnetic losses in the range of 200-300 MHz. 1 dwg

Description

 The invention relates to magnetic materials, in particular to soft magnetic ferrites intended for use as cores of high-frequency circuits of radio equipment and magnetic built-in antennas of miniature color television receivers.

 The aim of the invention is to reduce the magnetic loss of ferrite material in the frequency range 200-300 MHz.

 The invention is based on the joint introduction of lithium and barium oxides in a ferrite material containing oxides of iron, zinc, cobalt, tungsten and nickel oxide.

It was experimentally established that, with a ratio of components, wt.%: NiO 25.0-33.5 ZnO 0.4-4.0 CoO 0.3-2.5 WO ₃ 0.6-5.0 Li ₂ O 0, 01-0.70 BaO 0.15-2.50 Fe ₂ O ₃ The rest of the material at frequencies of 200-300 MHz has a higher product of the initial magnetic permeability μ _n and Q factor Q, which is equivalent to a decrease in the magnetic loss of the material. Going beyond the indicated limits of the content of components leads to a decrease in the product μ _n ˙Q. Ferrite material is made by mixing oxides. Sintering of ferrite products is carried out at 950-1050 ^about C.

PRI me R 1. To obtain ferrite material take oxides in the ratio shown in the table. The starting oxides were mixed in a vibrating mill for 2 hours, subjected to preliminary calcination at ⁸⁵⁰ ° C, and then -. Milled for 2 h From the calcined blend is compressed K32h20h6 ring cores under a specific pressure of 1500 kg / cm ^2. Cores sintered at 980 ^C and measured electromagnetic parameters ferrite material (initial permeability μ _n and a quality factor Q at the frequencies f = 200, 250 and 300 MHz). The table shows the characteristics of the ferrite material obtained in example 1, as well as carried out analogously to example 1, examples 2-5. In addition to the values of μ _n and Q, the table shows the value of the product μ _n ˙ Q, which characterizes the magnetic loss of the material at frequencies of 200-300 MHz.

As follows from the table, the proposed ferrite material (examples 1-5) are characterized by lower magnetic losses at frequencies of 200-300 MHz compared with the known [2] material, as evidenced by higher values of the product μ _n ˙ Q.

 The use of the invention will improve the efficiency of the use of ferrites in radio and television equipment.

Claims (1)

FERRITE MATERIAL containing iron oxide, nickel oxide, zinc oxide, cobalt oxide and tungsten oxide, characterized in that, in order to reduce magnetic losses in the frequency range 200 - 300 MHz, it additionally contains lithium oxide and barium oxide in the following ratio of components, wt.%:
Nickel oxide 25.0 - 33.5
Zinc oxide 0.4 - 4.0
Cobalt oxide 0.3 - 2.5
Tungsten Oxide 0.6 - 5.0
Lithium oxide 0.01 - 0.70
Barium oxide 0.15 - 2.50
Iron Oxide Else

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