Improvement of the properties of MnZn ferrite power cores through improvements on the microstructure of the compacts

G. Kogias; V. Tsakaloudi; P. Van der Valk; V. Zaspalis

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Improvement of the properties of MnZn ferrite power cores through improvements on the microstructure of the compacts

机译：通过改进压坯的微观结构来改善MnZn铁氧体功率芯的性能

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In the present work freeze drying and wet-pressing technologies are applied and evaluated in the manufacturing process of functional ceramics such as MnZn power ferrites. In particular, the implementations of freeze drying instead of spray drying and the implementation of wet pressing instead of dry uniaxial pressing are investigated. It appeared that at high frequencies there is almost 25% power loss reduction by the implementation of freeze drying instead of spray drying. At low frequencies there is almost 23% power loss reduction by the implementation of wet pressing instead of dry pressing. By introducing wet pressing technology, MnZn ferrite materials exhibiting power losses of 210 mW cm~(-3) (100 kHz, 200 mT and 100 ℃) could be synthesized. This is one of the lowest power loss values reported in the scientific or patented literature.

机译：在本工作中，冷冻干燥和湿压技术在功能陶瓷（例如MnZn功率铁氧体）的制造过程中得到应用和评估。特别地，研究了冷冻干燥代替喷雾干燥的实施方式以及湿压代替干单轴压制的实施方式。似乎在高频下，通过冷冻干燥而不是喷雾干燥，功率损耗降低了近25％。在低频情况下，通过湿压而不是干压可降低约23％的功率损耗。通过采用湿压技术，可以合成功率损耗为210 mW cm〜（-3）（100 kHz，200 mT和100℃）的MnZn铁氧体材料。这是科学或专利文献中报告的最低功耗值之一。

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来源
《Journal of magnetism and magnetic materials》 |2012年第2期|p.235-241|共7页
作者
G. Kogias; V. Tsakaloudi; P. Van der Valk; V. Zaspalis;
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作者单位

Laboratory of Materials Technology, School of Engineering, Department of Chemical Engineering, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece,Laboratory of Inorganic Materials, Chemical Process Engineering Research Institute, Centre for Research and Technology Hellas, 57001 Thessaloniki, Greece;

Laboratory of Materials Technology, School of Engineering, Department of Chemical Engineering, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece;

Laboratory of Materials Technology, School of Engineering, Department of Chemical Engineering, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece;

Laboratory of Materials Technology, School of Engineering, Department of Chemical Engineering, Aristotle University of Thessaloniki, 54124 Thessaloniki, Greece,Laboratory of Inorganic Materials, Chemical Process Engineering Research Institute, Centre for Research and Technology Hellas, 57001 Thessaloniki, Greece;

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正文语种 eng
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关键词
ferrites; freeze drying; wet pressing; power loss;

机译：铁氧体冷冻干燥湿压电力流失;

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1. Correlating the microstructure and magnetic properties of MnZn power ferrites via Co_2O_3 and MoO_3 co-doping for MHz applications [J] . Xiaoyu Wang, Shengbo Yi, Chen Wu, Journal of magnetism and magnetic materials . 2021,第Nova期

机译：通过CO_2O_3和MOO_3共掺杂对MNZN电力铁氧体的微结构和磁性与MHz应用相关联
2. Optimum power-loss and microstructure of MnZn ferrites under consideration of particle size [J] . Liu C.S., Wu J.M. IEEE Transactions on Magnetics . 1996,第5期

机译：考虑颗粒尺寸的MnZn铁氧体的最佳功率损耗和显微组织
3. Effects of Granule Size of MnZn Ferrite Particles on the Filing and Compaction Properties [J] . Chieko Sasaki, Taku Murase, Takeshi Nomura 粉体および粉末冶金 . 2001,第8期

机译：MnZn铁氧体颗粒粒径对填实和压实性能的影响
4. Effects of MnZn ferrite doping on magnetic and electrical properties of NiZnCu ferrite toroid cores for power applications [C] . Junchang Liu, Yunhui Mei, Xin Li, International Conference on Electronic Packaging Technology . 2018

机译：MnZn铁氧体掺杂对电力应用NiZnCu铁氧体环形磁芯的磁和电性能的影响
5. Fabrication of Mn-Zn ferrite with the aim of improvement of magnetic and mechanical properties [D] . Hirota, Ken 1989

机译：Mn-Zn铁氧体的制备以改善磁性能和机械性能为目的
6. Improvement of Dielectric Magnetic and Thermal Properties of OPEFB Fibre–Polycaprolactone Composite by Adding Ni–Zn Ferrite [O] . Ahmad F. Ahmad, Zulkifly Abbas, Suzan J. Obaiys, 2017

机译：通过添加镍锌铁氧体来改善OPEFB纤维-聚己内酯复合材料的介电磁和热性能
7. Improvement of magnetic properties of the permanent magnet : Effect of CaO and SiO2 additives on the sintered compact of Sr-ferrite. [O] . Yuji Kaneko, Shuji Anamoto, Atsushi Hamamura 1987

机译：永磁磁性的改善：CaO和SiO2添加剂对Sr-铁氧体烧结块的影响。
8. Microstructure and Magnetic Properties of MnZn-Ferrite [R] . Lin, I. N. 1982

机译：mnZn铁氧体的微观结构和磁性

Improvement of the properties of MnZn ferrite power cores through improvements on the microstructure of the compacts

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