High-conductivity FeSiAl magnetic powder core and preparation method for same

An iron-silicon-aluminum and magnetic powder core technology is applied in the field of iron-silicon-aluminum magnetic powder core and preparation, which can solve the problems of reducing the efficiency of the whole machine, increasing the reactive power consumption, increasing the switching loss, etc. The effect of increased power consumption and reduced switching loss

Active Publication Date: 2017-05-10
JIANGXI AITE MAGNETS +1
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  • Abstract
  • Description
  • Claims
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AI Technical Summary

Problems solved by technology

[0004] There are two main problems in the existing switching power supply: one is that the efficiency cannot be balanced under different loads; the electrical equipment will not run at full load at the rated power for 24 hours, and it will be in standby state for part of the time
Second, the active PFC in the intermittent working mode or the alternating large current on the inductive load will cause the switching device to be easily damaged, the switching loss will increase, the reactive power consumption will increase, and the efficiency of the whole machine will be reduced.

Method used

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  • High-conductivity FeSiAl magnetic powder core and preparation method for same

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preparation example Construction

[0024] A high-conductivity iron-silicon-aluminum magnetic powder core of the present invention is made by mixing iron-silicon-aluminum alloy powder particles with metal soft tape materials, and the preparation method steps are as follows:

[0025] 1) Dehumidification and coating treatment of iron-silicon-aluminum alloy powder particles. First, dehumidify the iron-silicon-aluminum alloy powder particles with a particle size of -100 to -500 mesh with a dehumidifier, and then mix them with an insulating coating agent to control the mixing temperature The temperature is 15-130°C, and the mixing treatment time is 5-80 minutes, which is used to process the iron-silicon-aluminum alloy powder particles;

[0026] 2) Heat treatment of the metal soft magnetic tape winding core material, soak the metal tape with a thickness of 15-500 microns in sodium silicate or potassium silicate solution, and then heat-preserve and cure at a temperature of 50°C-200°C, Cooling, winding magnetic core mat...

Embodiment 1

[0037] 1) Soak the -150-mesh FeSi-Al powder with a weight of 23.5 grams in a mixture of 1% phosphoric acid + 1% sodium silicate solution for 10 minutes, and then bake it at 100°C for 20 minutes; 2 ) Soak an iron-based amorphous (national standard 1k101) metal winding magnetic core (size OD23mm*ID20mm*HT6.5mm) with a thickness of 25 microns in sodium silicate with a mass concentration of 3% for 5 minutes, and then use 200 ℃ bake for 50 minutes. 3) Put 12g of processed sendust powder into the mold cavity of OD26.9mm*ID14.7mm*HT11.2mm; 4) Put the metal winding magnetic core prepared in the second step of this embodiment into 5) Then put the remaining 11.5 grams of sendust powder into it. 6) When the pressure reaches 21T / cm2, keep it for 10 seconds, and eject the mold. 7) The pressure-molded magnetic powder core is pretreated by heating at 200°C for 50 minutes under a vacuum of 0.08Pa. 8) Under the same vacuum conditions, raise the temperature to 420°C for 60 minutes, take it o...

Embodiment 2

[0038] Embodiment 2 The specific embodiment of this implementation is the same as embodiment 1 and the above-mentioned description except the following descriptions;

[0039] 1) Put -250-mesh Fe-Si-Al powder with a weight of 40 grams into a solution consisting of 0.8 g of tetraethyl orthosilicate and 0.8 g of zinc stearate, soak and heat to 80°C for 20 minutes; 2) Take the iron-nickel alloy strip with a thickness of 50 microns, the model is the national standard 1j79, and wrap the magnetic core with the size of OD30mm*ID24mm*HT10mm, soak it in sodium silicate with a mass concentration of about 1% for 5 minutes, and then Bake at 300°C for 30 minutes. 3) Put 20g of processed sendust powder into the mold cavity of OD40mm*ID15mm*HT14mm; 4) Put the metal winding magnetic core prepared in the second step of this embodiment into the mold cavity. 5) Then put the remaining 20 grams of nanocrystalline alloy powder into it; 6) The pressure reaches 18T / cm 2 Keep it for 15 seconds, and e...

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Abstract

The invention discloses a high-conductivity FeSiAl magnetic powder core and preparation method for the same. The high-conductivity FeSiAl has raw material of FeSiAl aluminum alloy powder particles. The preparation method comprises the following steps of 1) dehumidifying and coating the FeSiAl aluminum alloy powder particles,2) coiling the magnetic core material by a metal soft magnetic belt and heating, 3) preparing a FeSiAl magnetic powder core crude products, 4) preparing a FeSiAl magnetic powder core processed products, and 5) preparing a FeSiAl magnetic powder core products. Compared with the present magnetic core preparation method, large current transient loss can be reduced and transient resistance can be improved; large current instant on-off soft landing can be achieved and electric equipment can be protected; and power supply power factors can be improved.

Description

technical field [0001] The invention relates to a sendust magnetic powder core and a preparation method, in particular to a high-conductivity sendust magnetic powder core and a preparation method thereof. Background technique [0002] The magnetic powder core is one of the main components in the switching equipment of the power supply, which largely determines the quality of the switching power supply and the efficacy of energy saving and consumption reduction. At present, the sendust magnetic powder core has poor DC bias ability under high current and cannot meet the requirements of existing technical standards, and the electronic components produced with this magnetic powder core are difficult to meet high-standard quality technical requirements. On the other hand, the existing methods for preparing sendust magnetic powder cores usually use the crushing method, etc., and the electronic devices prepared by them have poor DC bias capability, higher loss, complicated manu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01F3/10H01F41/02H01H11/00
CPCH01F3/10H01F41/0213H01F41/0246H01F2003/106H01H11/00
Inventor 毛圣华皮金斌张勉团
Owner JIANGXI AITE MAGNETS
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