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1.
Electron Microanalysis Study on Doped MnZn Power Ferrite
掺杂MnZn功率铁氧体的电子显微研究
2.
Influence of Ta_2O_5 Addition on the Properties of MnZn Power Ferrites
添加Ta_2O_5对MnZn功率铁氧体性能的影响
3.
The Preparation of Excellent MnZn Power Ferrite with Refined Iron-mineral Powders and Mn_3O_4;
用精铁矿粉和Mn_3O_4制备高性能MnZn功率铁氧体
4.
Control of the Partial Oxygen Pressure of Sintering of High Frequency High B_s Mn-Zn Power Ferrites
高频高B_s MnZn功率铁氧体烧结氧分压控制
5.
Investigations on Performance of Mn-Zn Power Ferrites Doped with Additives and Preparation of Nanosized Mn-Zn Ferrites Powders;
Mn-Zn功率铁氧体掺杂改性及纳米Mn-Zn铁氧体粉体制备工艺研究
6.
The Development of Grinder MD7485 for Soft Power Ferrite;
软磁功率铁氧体专用磨床MD7485的研制开发
7.
Investigation of temperature characteristic of magnetic properties in high frequency NiZn ferrite
高频NiZn功率铁氧体的磁性能温度特性的研究
8.
Application of Uniform Design Method in Developing of Power Ferrite Materials
均匀设计方法在功率铁氧体材料开发中的应用
9.
Investigation Progress of Doping in Mn-Zn Power Ferrites
Mn-Zn功率铁氧体微量添加物的研究进展
10.
The Study on Preparation and Sintering of Nanosized Mn-Zn Power Soft Ferrites;
纳米软磁锰锌功率铁氧体粉体的制备及烧结性能研究
11.
The components of core losses and their controlling methods are analyzed in detail.
详细分析了功率铁氧体磁芯损耗的组成及其控制方法。
12.
Preparation, Structure and Properties of Nano-crystalline Composite NiZn Ferrite;
纳米晶复合NiZn功率铁氧体的制备、结构与性能表征
13.
Study on High Power NiZn Ferrite Materials with High Performanc;
高性能大功率镍锌基铁氧体材料研究
14.
Research on High Power Microwave Composite Garnet Ferrite;
高功率复合微波柘榴石铁氧体的研究
15.
Research on Composite Microwave Garnet Ferrite of Low Magnetic Moment and High Power;
低磁矩大功率复合微波石榴石铁氧体的研究
16.
In this paper, we developed a garnet material with good specifications used in TR modules.
本文介绍了一种性能优良的功率微波铁氧体材料。
17.
Wide frequency band, high power, low losses and wide temperature coefficient are the developing trends of microwave ferrite materiel.
微波铁氧体材料的发展趋势是宽频带、功率、损耗、温度系数。
18.
Influence of Composite Substitution on High Power Properties of Garnet-ferrite
复合取代对石榴石铁氧体材料高功率特性的影响