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1. Preparation of low-loss amorphous soft magnetic powder cores by joint coating of resin and ZnO nanoparticles

   Low loss FeSiBCr soft magnetic powder cores were prepared by the joint coating of ZnO nanoparticles and epoxy resin. In this study, the content of...

   Hao Li, Yujie Yang, ... Zhengyu Zhang in Journal of Materials Science: Materials in Electronics

   Article 04 June 2024
   

2. Hot-compacted Fe–Si soft magnetic composite with low loss at low frequency

   The Fe-5.5wt%Si soft magnetic composites (SMCs) with outstanding magnetic properties at low frequency are prepared by hot compaction combined with H ₃ PO...

   Xu Zhu, Wei Liu, ... Hailin Su in Journal of Materials Science: Materials in Electronics

   Article 14 July 2023
   

3. Fabrication of FeSiBPCNbCu nanocrystalline soft magnetic powders with high saturation magnetization and low core loss

   In this work, with the aim of develo** nanocrystalline powder cores (NPCs) with high saturation magnetization ( M _s ) and excellent magnetic...

   Ling Zhang, Yue Wu, ... Baogen Shen in Journal of Materials Science

   Article 21 May 2024
   

4. A finite oxidation strategy for customizing heterogeneous interfaces to enhance magnetic loss ability and microwave absorption of Fe-cored carbon microcapsules

   Metallic iron particles are of great potential for microwave absorption materials due to their strong magnetic loss ability. However, the oxidation...

   Meixi Zhang, Laisen Wang, ... Lansun Zheng in Nano Research

   Article 02 March 2023
   

5. Magnetic manganese-based composites with multiple loss mechanisms towards broadband absorption

   The weak dielectric properties and the lack of magnetic loss of manganese-based absorbers are obstructed as the new generation of electromagnetic...

   Yue Liu, Zirui Jia, ... Guanglei Wu in Nano Research

   Article 29 March 2022
   

6. Soft magnetic properties and loss performance of Co₂O₃-doped power MnZn ferrite at 100–300 kHz

   In this study, a Co ₂ O ₃ addition from 0.28 to 0.44 wt% is added to the MnZn ferrites. The effects of Co ₂ O ₃ on the soft magnetic properties and loss...

   Bin Fu, Yaohua Yi, ... Zhongwen Lan in Journal of Materials Science: Materials in Electronics

   Article 31 May 2023
   

7. Influence of four kinds of organic binders on magnetic properties of FeSiCrC magnetic powder and magnetic powder core

   In this paper, a novel soft magnetic powder core (SMPC) was successfully prepared by severally coating four kinds of organic binders on the surface...

   Yuting Meng, Yujie Yang, ... Zhenyu Zhang in Journal of Materials Science: Materials in Electronics

   Article 07 May 2024
   

8. Study on the Magnetic Property of Fe-Si-B Amorphous Magnetic Powder Core Mixed with Carbonyl Iron

   In order to obtain soft magnetic powder core with low loss and high permeability, the magnetic properties of Fe-Si-B amorphous magnetic powder core...

   Yong Zhu, Cong Zhang, ... Wei Sun in Journal of Materials Engineering and Performance

   Article 22 January 2024
   

9. Preparation, structure and magnetic properties of spherical FeSiB/Al₂O₃ soft magnetic composites prepared in a magnetic field

   Amorphous FeSiB/Al ₂ O ₃ soft magnetic composites were successfully fabricated in this work by applying an external magnetic field perpendicular or...

   Qi**g Zhu, Chaoyun Zhang, ... Hongliang Ge in Journal of Materials Science

   Article 08 April 2024
   

10. Investigation on variation and influencing factors of magnetization loss of HTS-coated conductor under alternating high magnetic field

    The magnetization loss of multilayer high-temperature superconductor (HTS)-coated conductors (CC)’s will affect the temperature, current carrying...

    Yufeng Zhang, Tao Su, ... Qixun Zhou in Journal of Materials Science: Materials in Electronics

    Article 16 March 2022
    

11. Preparation and Magnetic Properties of AlN/Phenolic Resin-Coated Iron-Based Soft Magnetic Composites

    Soft magnetic composites (SMCs) were prepared by uniformly mixing reduced Fe powder with nano-AlN particles and phenolic resin by powder metallurgy....

    Shen Wu, Zhenzhen Dong, ... Jianxiu Liu in Journal of Electronic Materials

    Article 26 September 2023
    

12. Formulation of energy loss due to magnetostriction to design ultraefficient soft magnets

    The mechanism of energy loss due to magnetostriction in soft magnetic materials was analytically formulated, and our experiments validated this...

    Hiroshi Tsukahara, Haodong Huang, ... Kanta Ono in NPG Asia Materials

    Article Open access 26 March 2024
    

13. Reduction of High-Frequency Core Loss of a Fe_77.2Si₁₁B_8.5Cu_0.8Nb_2.5 Soft Magnetic Nanocrystalline Alloy by Minor Alloying

    Enhancing saturation magnetic flux density ( B _s ) while reducing high-frequency core loss in Finemet-type nanocrystalline alloys is of great...

    Shushen Guo, Yanhui Li, ... Wei Zhang in Acta Metallurgica Sinica (English Letters)

    Article 10 July 2024
    

14. Constructing core-shell carbon fiber/polypyrrole/CoFe₂O₄ nanocomposite with optimized conductive loss and polarization loss toward efficient electromagnetic absorption

    The inadequate impedance matching and weak attenuation capability for incident electromagnetic waves exhibited by carbon fibers (CF) are critical...

    Liying Yuan, Wenxin Zhao, ... Zhenjiang Li in Advanced Composites and Hybrid Materials

    Article 06 April 2024
    

15. Magnetic properties and thermal stability of Fe-based amorphous/carbonyl iron soft magnetic composites

    In this research, Fe–Si–B/carbonyl iron soft magnetic composites were prepared with the aim of having low magnetic loss and temperature-dependent...

    Jibiao Shen, Bin Wang, ... Guodong Wang in Journal of Materials Science: Materials in Electronics

    Article 19 May 2023
    

16. Preparation and magnetic properties of hybrid FeSiBCr amorphous Soft magnetic composites with carbonyl iron and reduced iron particles

    Amorphous Soft magnetic composites have the advantages of high resistance, excellent saturation magnetization, and low coercivity. However, due to...

    Shen Wu, **aoran Sun, ... Ying Li in Journal of Materials Science: Materials in Electronics

    Article 08 May 2024
    

17. Core-loss behavior of Fe-based nanocrystalline at high frequency and high temperature

    We measured the loss of Fe _73.5 Si _15.5 B ₇ Cu ₁ Nb ₃ nanocrystalline magnetic cores prepared by winding an amorphous alloy ribbon into a ring and annealing...

    Miaowen Deng, Yuanzheng Yang, ... **jun Tao in Journal of Materials Science: Materials in Electronics

    Article 26 April 2024
    

18. Magnetic Logic and Magnetic Computing Spin-Based Devices

    The field of spintronics emerged from discoveries in the 1980s concerning spin-dependent electron transport phenomena in solid-state devices [1]. One...

    Shahnaz Kossar, Asif Rasool, ... Anurag Sharma in Handbook of Emerging Materials for Semiconductor Industry

    Reference work entry 2024
    

19. Effects of particle surface modification on magnetic behavior of soft magnetic Fe@SiO₂ composites and Fe compacts

    The study aims to evaluate the influence of surface modification of Fe powder on the magnetic behavior of soft magnetic compacts and composites that...

    Robert Maciaszek, Peter Kollár, ... Mária Fáberová in Journal of Materials Science

    Article Open access 19 June 2024
    

20. Magnetic properties and loss separation mechanism of FeSi soft magnetic composites with in situ NiZn-ferrite coating

    The soft magnetic performances including frequency-dependent permeability, core loss, and DC-bias properties of the Fe-6.5 wt.%Si (FeSi) soft...

    **ghui Wang, Zhengliang Xue, ... Haibo Sun in Journal of Materials Science: Materials in Electronics

    Article 10 July 2021