Magnetic properties of SMC materials based on iron powder with multilayer insulating coating

Perspektivnye Materialy Pub Date : 2023-01-01 DOI:10.30791/1028-978x-2023-5-66-71
G. Govor, A. Larin, O. Demidenko, A. L. Zheludkevich
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Abstract

Magnetic properties of composite magnetically soft (SMC) materials based on iron powder ABC100.30 depending on the thickness of the insulating coating based on phosphorus oxide are investigated. It was found that for SMC materials with a three-layer coating of particles, the magnitude of magnetic hysteresis is minimal. As a result, the remagnetization losses for a materials with three-layer insulating particles coating are reduced by an order of magnitude in comparison with composites based on powders with a single-layer coating. The developed materials with magnetic permeability µ = 100 – 150 and induction up to 1.8 T are promising for use in the frequency range up to 1 MHz in the manufacture of various types of electrical devices.
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多层绝缘涂层铁粉基SMC材料的磁性研究
研究了ABC100.30铁粉基复合磁软材料的磁性能随氧化磷基绝缘涂层厚度的变化。结果表明,对于三层颗粒包覆的SMC材料,磁滞效应最小。结果表明,与基于单层涂层的粉末复合材料相比,具有三层绝缘颗粒涂层的材料的再磁化损失降低了一个数量级。所开发的磁导率μ = 100 - 150,感应强度高达1.8 T的材料有望在高达1 MHz的频率范围内用于制造各种类型的电气设备。
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Perspektivnye Materialy
Perspektivnye Materialy
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