High frequency electromagnetic properties of Fe73.5Si13.5B9Nb3Cu1/carbonyl Fe composites
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Xiansong Liu | Yong Zhu | X. Kan | Zongyang Zhang | S. Feng | Cong Zhang | Yujie Yang
[1] Kecheng Zhang,et al. Effects of P addition on the glass forming ability, crystallization behaviour and soft magnetic properties of FeNi-based amorphous alloy , 2022, Intermetallics.
[2] Wanjiao Li,et al. Hybrid amorphous soft magnetic composites with ultrafine FeSiBCr and submicron FeBP particles for MHz frequency power applications , 2022, Journal of Magnetism and Magnetic Materials.
[3] Zhigang Wu,et al. Wireless liquid-alloy-based induction heating for soft devices by alternating magnetic field: from characterization to application , 2022, Sensors and Actuators A: Physical.
[4] J. Xu,et al. Microstructure evolution, magnetic properties and frequency characteristics of Si-rich FeSiBCuNb soft magnetic alloy induced by annealing treatment , 2022, Materials Characterization.
[5] Hai-dou Wang,et al. Microstructure, magnetic domain and dynamic loss of surface-textured Fe-based nanocrystalline alloy , 2022, Journal of Materials Science & Technology.
[6] Yongfei Wang,et al. Ultrafine-grained microstructure and controllable magnetic domains in Fe-based nanocrystalline alloys with excellent magnetic properties induced by hot isostatic pressing , 2022, Journal of Alloys and Compounds.
[7] Wei Zhang,et al. Direct synthesis of Fe-Si-B-C-Cu nanocrystalline alloys with superior soft magnetic properties and ductile by melt-spinning , 2021, Journal of Materials Science & Technology.
[8] C. Phatak,et al. Magnetostrictive loss reduction through stress relief annealing in an FeNi-based metal amorphous nanocomposite , 2021, Journal of Materials Research.
[9] Yongfei Wang,et al. High permeability and low core loss nanocrystalline soft magnetic composites based on FeSiBNbCu@Fe3O4 powders prepared by HNO3 oxidation , 2021 .
[10] P. Yu,et al. The influences of matrix materials on the magnetic and mechanical properties of Fe78Si9B13 soft magnetic composites fabricated by injection molding , 2021, Materials Research Bulletin.
[11] Kewei Zhang,et al. Effect of Si/B ratio on glass-forming ability, phase transitions and magnetic properties in (Fe40Ni40SixByCu1)0.97Nb0.03 alloys , 2020, Journal of Materials Science.
[12] V. Harris,et al. Cold Sintered Metal–Ceramic Nanocomposites for High‐Frequency Inductors , 2020, Advanced Electronic Materials.
[13] Hu Li,et al. Design of Fe-based nanocrystalline alloys with superior magnetization and manufacturability , 2020 .
[14] Xiansong Liu,et al. Fabrication of an Fe80.5Si7.5B6Nb5Cu Amorphous-Nanocrystalline Powder Core with Outstanding Soft Magnetic Properties , 2018, Journal of Electronic Materials.
[15] J. Kováč,et al. Magnetic properties and loss separation in FeSi/MnZnFe2O4 soft magnetic composites , 2016 .
[16] Jiancheng Song,et al. Development of FeSiBNbCu Nanocrystalline Soft Magnetic Alloys with High Bs and Good Manufacturability , 2016, Journal of Electronic Materials.
[17] M. Yan,et al. Preparation of Fe–Si–Ni soft magnetic composites with excellent high-frequency properties , 2015 .
[18] K. Janghorban,et al. Effect of heat treatment on magnetic properties of iron-based soft magnetic composites with Al2O3 insulation coating produced by sol–gel method , 2013 .
[19] G. Herzer. Modern Soft Magnets: Amorphous and Nanocrystalline Materials , 2013 .
[20] P. Kollár,et al. Power loss separation in Fe-based composite materials , 2013 .
[21] H. Shokrollahi,et al. Soft magnetic composite materials (SMCs) , 2007 .
[22] Y. Yoshizawa,et al. New Fe-based soft magnetic alloys composed of ultrafine grain structure , 1988 .