期刊
JOURNAL OF ALLOYS AND COMPOUNDS
卷 830, 期 -, 页码 -出版社
ELSEVIER SCIENCE SA
DOI: 10.1016/j.jallcom.2020.154736
关键词
FeSiCr@NiZn; Soft magnetic composites (SMCs); Core losses; High resistivity; High-frequency
资金
- Department of Science and Technology of Sichuan Province Project [20ZDYF2823]
- National Natural Science Foundation of China [51472045, 51772046]
- Fundamental Research Funds for the Central Universities [ZYGX2018J038, ZYGX2018J040, ZYGX2018J042]
Soft magnetic composites (SMCs) are widely applied in electronic devices and components, such as inductors, as they possess the highly-saturated magnetization M-s of metallic materials and the highly-insulating characteristics of non-metals. However, with the development of electronic systems that require high-frequency operation, high-energy-transfer efficiency, and miniaturization, the suppression of core losses P-cv in their SMCs remains a considerable challenge. Herein, we explore ways to improve the frequency dependence of core losses by using various concentrations of NiZn ferrite (0.0-5.0 wt%) to coat FeSiCr magnetic powders. The microstructural, magnetic, dielectric, and core loss performances of FeSiCr@NiZn SMCs are investigated in detail. Energy dispersive X-Ray spectroscopy (EDS) mapping confirmed that the FeSiCr magnetic powders were able to be well coated with NiZn ferrite. Core loss separation method was utilized to calculate hysteresis losses P-h and eddy current losses P-e from 25 to 800 kHz at 10 mT and 25 degrees C. With increasing NiZn ferrite concentration, both P-cv and P-h initially decreased and subsequently increased, while P-e decreased monotonically. The sample with 3.0 wt% NiZn ferrite had the best overall performance: saturation magnetization M-s = 157 emu/g, coercive force H-c = 4.6 Oe, effective permeability mu(e) = 60, resistivity rho = 1.25 x 10(4) Omega center dot m, and core losses P-cv = 38 mW/cm(3) (at 800 kHz, 10 mT, and 25 degrees C). The excellent electromagnetic properties of these novel FeSiCr@NiZn SMCs give them enormous application potential in the fields of power transmission and conversion. (c) 2020 Elsevier B.V. All rights reserved.
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