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Initial magnetic-inductive capacity 100 (+20) (-20) nickel-zinc ferrite material and preparation method

A nickel-zinc ferrite, initial magnetic permeability technology, applied in the direction of inorganic material magnetism, etc., can solve the problems of rising eddy current loss of ferrite, reducing lamp efficiency, increasing production cost, etc., achieving good temperature characteristics and improving electromagnetic loss. Features, usage reduction effect

Inactive Publication Date: 2010-07-14
TONGXIANG TELIYOU ELECTRONICS SCI & TECH
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  • Abstract
  • Description
  • Claims
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Problems solved by technology

[0005] At present, 3F4 power manganese zinc ferrite is generally used abroad to prepare power couplers in high frequency electrodeless lamps, but due to the existence of Fe 2 + ⇔ Fe 3 + Such a conductive pair usually has a low resistivity, and since the operating frequency of the high-frequency electrodeless lamp is usually 2.5MHz to 3MHz, this leads to a sharp increase in the eddy current loss of the ferrite, which greatly reduces the efficiency of the lamp
In addition, because the eddy current loss of manganese zinc ferrite is very large, and the eddy current loss is mainly converted into heat, which causes the temperature of the ferrite to reach above 100°C during the working process, so that the 3F4 power manganese zinc ferrite can be assembled In the power coupler, special insulation treatment and skeleton support must be carried out, which leads to a more complicated process and increases the production cost

Method used

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  • Initial magnetic-inductive capacity 100 (+20) (-20) nickel-zinc ferrite material and preparation method
  • Initial magnetic-inductive capacity 100 (+20) (-20) nickel-zinc ferrite material and preparation method
  • Initial magnetic-inductive capacity 100 (+20) (-20) nickel-zinc ferrite material and preparation method

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Experimental program
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Effect test

Embodiment 1

[0029] 1) Selection of raw material: a kind of nickel-zinc ferrite material and preparation method with an initial magnetic permeability of 112 provided in this embodiment, its raw material selects industrially pure Fe 2 o 3 , ZnO, MnCO 3 , NiO and CoO.

[0030] 2) Composition design and weighing: according to Fe 2 o 3 49mol%, ZnO 16mol%, MnCO 3 1 mol%, NiO 33.7 mol%, and CoO 0.3 mol%.

[0031] 3) Mixing of raw materials: Put the weighed raw materials into a sand mill, add deionized water, the weight of deionized water is 1.2 times of the total weight of raw materials, and the ball milling time is 2 hours.

[0032] 4) Pre-burning: Dry the raw materials that have been ball-milled once, and put them into an electric furnace for pre-burning. The pre-burning temperature is 950°C, and the pre-burning time is 3.5 hours. After pre-burning, it is cooled with the furnace. After pre-burning, XRD phase analysis was carried out on the pre-fired material, and it was confirmed that on...

Embodiment 2

[0042] 1) Selection of raw material: a kind of nickel-zinc ferrite material and preparation method with an initial magnetic permeability of 102 provided in this embodiment, its raw material selects industrially pure Fe 2 o 3 , ZnO, MnCO 3 , NiO and CoO.

[0043] 2) Composition design and weighing: according to Fe 2 o 3 46mol%, ZnO 12.4mol%, MnCO 3 0.1 mol%, NiO 40 mol%, and CoO 1.5 mol%.

[0044] 3) Mixing of raw materials: Put the weighed raw materials into a sand mill, add deionized water, the weight of deionized water is 1.2 times of the total weight of raw materials, and the ball milling time is 1 hour.

[0045] 4) Pre-burning: Dry the raw materials that have been ball-milled once, and put them into an electric furnace for pre-burning. The pre-burning temperature is 1100°C, and the pre-burning time is 1.5 hours. After pre-burning, it is cooled with the furnace. After pre-burning, XRD phase analysis was carried out on the pre-fired material, and it was confirmed that ...

Embodiment 3

[0055] 1) Selection of raw material: a kind of nickel-zinc ferrite material and preparation method with an initial magnetic permeability of 92 provided in this embodiment, its raw material selects industrially pure Fe 2 o 3 , ZnO, MnCO 3 , NiO and CoO.

[0056] 2) Composition design and weighing: according to Fe 2 o 3 49mol%, ZnO 10mol%, MnCO 3 0.4 mol%, NiO 40 mol%, and CoO 0.6 mol%.

[0057] 3) Mixing of raw materials: Put the weighed raw materials into a sand mill, add deionized water, the weight of deionized water is 1.2 times of the total weight of raw materials, and the ball milling time is 1.5 hours.

[0058] 4) Pre-burning: Dry the raw materials that have been ball-milled once, and put them into an electric furnace for pre-burning. The pre-burning temperature is 1000°C, and the pre-burning time is 2 hours. After pre-burning, it is cooled with the furnace. After pre-burning, XRD phase analysis was carried out on the pre-fired material, and it was confirmed that on...

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Abstract

The invention discloses an oxygen body material of nickel, zinc and ferrum with initial permeability being 100<-20><+20> and a preparation method thereof. The main phase of the material is spinel structure, and the material essentially consists of Fe2O3, ZnO, MnO, NiO and CoO, and the contents of composition calculated by oxide are: 46mol percent to 49mol percent of Fe2O3, 10mol percent to 16mol percent of ZnO, 0.1mol percent to 1.0mol percent of MnO, 33.7mol percent to 40mol percent of NiO and 0.3mol percent to 1.5mol percent of CoO; the oxygen body material of nickel, zinc and ferrum with initial permeability being 100<-20><+20> has broadband, low electromagnetic consumption and good temperature stability in larger working current; the material has extremely low electromagnetic consumption in high frequency ranging from 2.5MHz to 3MHz; as the oxygen body material of nickel, zinc and ferrum provided by the method of the invention has broadband, low electromagnetic consumption and good temperature stability in larger working current, the temperature coefficient thereof is less than 15.0 multiplied by 10<-6> with the temperature rranging from -20 DEG C to 100 DEG C, thus being beneficial to working stability of a power coupler; the oxygen body material of nickel, zinc and ferrum can also be used for producing various power couplers of high-frequency electrodeless lamps with theworking frequency in range of 2.5MHz to 3MHz.

Description

technical field [0001] The invention relates to a nickel-zinc ferrite material that can be used in various high-frequency electrodeless lamp power couplers, especially a kind of initial magnetic permeability of 100 -20 +20 Nickel zinc ferrite material and preparation method thereof. Background technique [0002] High Frequency Electronic Discharge Lamp (High Frequency Electronic Discharge Lamp) is a high-tech new light source that integrates the latest electronic power-saving technology and electric light source technology. It does not use a filament, but uses a magnetic field to stimulate gas discharge and light emission. It is highly efficient, energy-saving, and environmentally friendly. , long life and many other advantages. The high-frequency electrodeless lamp is composed of three parts: the excitation power supply, the power coupler and the bulb. The excitation source generates an electric frequency current above 2MHz, which is sent to the power coupler through the ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01F1/11C04B35/26C04B35/622B22F9/04
Inventor 胡军顾晔华
Owner TONGXIANG TELIYOU ELECTRONICS SCI & TECH
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