Complex-phase magnetic material and preparation method thereof

A technology of magnetic materials and magnetic particles, applied in the direction of inorganic material magnetism, inductance/transformer/magnet manufacturing, electrical components, etc., can solve problems such as unfavorable performance, weak binding force, and reduced magnetic properties of materials to achieve excellent insulation properties and Magnetic properties, excellent AC soft magnetic properties, and the effect of avoiding the reduction of magnetic properties

Pending Publication Date: 2022-04-15
CHINA JILIANG UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

[0004] Although the traditional non-magnetic insulating coating medium can reduce the magnetic loss of the soft magnetic composite material, it will still produce a magnetic dilution effect to a certain extent, which is not conducive to the improvement of performance
Moreover, the bonding force between the traditional insulating coating medium and the magnetic powder is weak, and its interface may be destroyed during the pressing process, reducing the magnetic properties of the material

Method used

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  • Complex-phase magnetic material and preparation method thereof
  • Complex-phase magnetic material and preparation method thereof
  • Complex-phase magnetic material and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0037] 1) Raw material preparation

[0038] The raw material is gas atomized iron powder with an average diameter of 37 μm;

[0039]2) Preparation of Fe by high temperature nitriding 4 N magnetic particles

[0040] Iron powder in NH 3 :H 2 = In a mixed atmosphere of 1:1, nitriding at 550°C for 8 hours to obtain pure Fe 4 N-phase;

[0041] 3) Preparation of Fe by high temperature nitriding 4 N / Fe 3 N complex magnetic particles

[0042] The Fe obtained by nitriding 4 N particles, further in NH 3 Nitriding at 500°C for 5h in the atmosphere, and then cooling to room temperature with the furnace in an argon atmosphere to obtain Fe 4 N / Fe 3 N complex phase magnetic particles.

[0043] 4) Compression molding

[0044] Will Fe 4 N / Fe 3 N complex phase magnetic particles are evenly mixed with the binder PVP, and pressed under a pressure of 1.2GPa;

[0045] 5) Stress relief annealing

[0046] The pressed soft magnetic composite material is annealed and heat-treated in an...

Embodiment 2

[0057] 1) Raw material preparation

[0058] The raw material is water atomized iron powder with an average diameter of 80 μm;

[0059] 2) Preparation of Fe by high temperature nitriding 4 N magnetic particles

[0060] Iron powder in NH 3 :H 2 = In a mixed atmosphere of 1:1, nitriding at 550°C for 8 hours to obtain pure Fe 4 N-phase;

[0061] 3) Preparation of Fe by high temperature nitriding 4 N / Fe 3 N complex magnetic particles

[0062] The Fe obtained by nitriding 4 N particles, further in NH 3 Nitriding at 500°C for 12 hours in the atmosphere, and then cooling to room temperature with the furnace in the nitrogen atmosphere to obtain Fe 4 N / Fe 3 N complex phase magnetic particles.

[0063] 4) Compression molding

[0064] Will Fe 4 N / Fe 3 N complex phase magnetic particles are uniformly mixed with binder W-6C, and pressed under a pressure of 1.2GPa;

[0065] 5) Stress relief annealing

[0066] The pressed soft magnetic composite material is annealed and heat-...

Embodiment 3

[0070] 1) Raw material preparation

[0071] The raw material is carbonyl iron powder with an average diameter of 2 μm;

[0072] 2) Preparation of Fe by high temperature nitriding 4 N magnetic particles

[0073] Iron powder in NH 3 :H 2 = In a mixed atmosphere of 1:1, nitriding at 550°C for 8 hours to obtain pure Fe 4 N-phase;

[0074] 3) Preparation of Fe by high temperature nitriding 4 N / Fe 3 N complex magnetic particles

[0075] The Fe obtained by nitriding 4 N particles, further in NH 3 Nitriding at 500°C for 0.1h in the atmosphere, and then cooling to room temperature with the furnace in an argon atmosphere to obtain Fe 4 N / Fe 3 N complex phase magnetic particles.

[0076] 4) Compression molding

[0077] Will Fe 4 N / Fe 3 N complex phase magnetic particles are evenly mixed with adhesive modified epoxy resin, and pressed under 1.2GPa pressure;

[0078] 5) Stress relief annealing

[0079] The pressed soft magnetic composite material is annealed and heat-treat...

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Abstract

The invention discloses a multiphase magnetic material and a preparation method thereof. Comprising a Fe4N core and a Fe3N coating, the Fe3N coating completely wraps the Fe4N core to form Fe4N / Fe3N magnetic particles containing two phases of Fe4N and Fe3N, and the Fe4N core and the Fe3N coating are in continuous transition and are tightly combined through an atomic bond. The preparation method comprises the following steps: nitriding iron powder in a mixed atmosphere of NH3 and H2 at 550 DEG C for 8 hours to obtain a pure Fe4N phase; and nitriding the Fe4N at 500 DEG C in an NH3 atmosphere for 0.1-12 hours, and then cooling the Fe4N to room temperature along with the furnace in a protective atmosphere to obtain the Fe4N / Fe3N core-shell structure particles. And uniformly mixing the Fe4N / Fe3N core-shell structure particles with an adhesive, performing compression molding under the pressure of 1.2 GPa, and then performing stress relief annealing for 2 hours at the temperature of 650 DEG C in a protective atmosphere to obtain the Fe4N / Fe3N complex-phase magnetic material. The method has the advantages that the Fe4N / Fe3N complex-phase magnetic material is synthesized in situ, Fe4N and Fe3N phases are tightly combined, the obtained Fe4N and Fe3N phases have excellent insulation characteristics and magnetic performance, and magnetic performance reduction caused by traditional non-magnetic insulation coating is avoided.

Description

technical field [0001] The invention relates to the field of magnetic material preparation, in particular to a multiphase magnetic material and a preparation method thereof. Background technique [0002] Soft magnetic composite materials are formed by uniformly dispersing magnetic particles in non-magnetic materials. Compared with traditional metal soft magnetic alloys and ferrite materials, it has many unique advantages: magnetic metal particles are dispersed in non-conductive objects, which can reduce high-frequency eddy current loss and increase application frequency; it can be processed by hot pressing Powder cores can also be manufactured into complex-shaped magnets by injection molding using current plastic engineering technology; they have the advantages of low density, light weight, high production efficiency, low cost, and good product repeatability and consistency. [0003] The research work of soft magnetic composite materials mainly focuses on the three aspects ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01F1/24H01F41/00
Inventor 詹同康张朝云彭晓领李静杨艳婷金顶峰金红晓洪波王新庆葛洪良
Owner CHINA JILIANG UNIV
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