1)MnZn power ferriteMnZn功率铁氧体
1.Characteristics of the loss of MnZn power ferrite;MnZn功率铁氧体的损耗特性研究
2.The study of addition Co~(2+) or Sn~(4+) on the magnetic properties dependence of MnZn power ferrites materials;Co~(2+)或Sn~(4+)对MnZn功率铁氧体磁特性的影响研究
3.The latest products of main ferrite corporations in the world, the investigation of MnZn power ferrite materials (i.介绍了宽温超低损耗、高频低损耗和高温高饱和磁感应强度(Bs)MnZn功率铁氧体材料的研究现状,以及添加剂的种类和制备方法的研究,世界上主要软磁铁氧体公司近几年的最新产品情况,指出了MnZn功率铁氧体的发展趋势。
英文短句/例句
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.Preparation, Structure and Properties of High Permeability MnZn Ferrites and MnZn Ferrite Powders高磁导率MnZn铁氧体及MnZn铁氧体微粉的制备、结构与性能研究
6.Study on MnZn Ferrite Materials with High Permeability and DC Superposition Suitable;高磁导率、高直流叠加MnZn软磁铁氧体材料研究
7.Effects of CuO Dopant on the Properties of High Initial Permeability MnZn FerriteCuO掺杂对高磁导率MnZn软磁铁氧体性能的影响
8.Effect of Bi_2O_3-MoO_3 Addition on Magnetic Properties of Mn-Zn Ferrites with High PermeabilityBi_2O_3-MoO_3复合掺杂对高磁导率MnZn铁氧体磁特性的影响
9.The Influence of Addition on the Properties of MnZn Ferrites;微量杂质对MnZn铁氧体性能的影响
10.Preparation of Sr~(2+)-doped MnZn ferrite by sol-gel methodsol-gel法制备Sr~(2+)掺杂的MnZn铁氧体
11.Study Preparation and Mechanism of High Properties MnZn Ferrites;高性能MnZn铁氧体材料的制备及机理研究
12.Low Temperature Sintered MnZn-ferrite Prepared by Sol-gel Auto-combustion Method;溶胶凝胶自蔓延法低温烧结MnZn铁氧体的研究
13.The Application of X-Ray Spectrometric Analysis in Mn-Zn Ferrite Powder ProductionX荧光光谱法在MnZn铁氧体料粉生产中的应用
14.Effects of V_2O_5 content and sintering temperature on magnetic properties of Mn-Zn ferritesV_2O_5含量与烧结温度对MnZn铁氧体性能的影响
15.Effect of MoO_3 on the Mechanical and Magnetic Properties of Manganese-Zinc Ferrite添加MoO_3对MnZn铁氧体机械与磁性能的影响
16.Influence of Sm~(3+) doping on the microstructure and properties of MnZn ferritesSm~(3+)掺杂对MnZn铁氧体显微结构及性能的影响
17.Comparison studies on MnZn ferrites prepared by ball milling and co-precipitation methods球磨与共沉淀法制备MnZn铁氧体的对比研究
18.Effect of ZrO_2 and SnO_2 Co-doping on Magnetic and Electrical Properties of MnZn Ferrite with Fe-poor CompositionZrO_2和SnO_2复合掺杂对贫铁配方的MnZn铁氧体磁性能和电性能的影响
相关短句/例句
MnZn ferriteMnZn铁氧体
1.The influence of addition on the microstructure and properties of MnZn ferrites with high permeability;掺杂对高导MnZn铁氧体微结构和性能的影响
2.Sintering of MnZn ferrite in high static magnetic field;强磁场下烧结MnZn铁氧体
3.Effect of Zn~(2+) on structure,magnetic properties and thermomagnetic effect of MnZn ferrites;Zn~(2+)对MnZn铁氧体结构、磁性能和磁热效应的影响
3)MnZn ferritesMnZn铁氧体
1.Study on doping modification of Fe-poor MnZn ferrites with high impedance at wide-band;宽频高阻抗贫铁MnZn铁氧体的掺杂改性研究
2.Effects of addition on performance of MnZn ferrites with high-permeability;掺杂对高导MnZn铁氧体材料性能的影响
3.Adding additives is regarded as the most effective method to reduce the power loss and improve the properties of MnZn ferrites.研究了CaCO3、SiO2、Nb2O5、TiO2、SnO2、V2O5以及Ta2O5等添加物组合掺杂对低功耗MnZn铁氧体磁性能的影响,分析了将原材料Fe2O3和Mn3O4作为添加物对MnZn铁氧体功耗谷底温度及其性能的影响。
4)MnZn ferriteMnZn 铁氧体
1.Introduce the recent situation of MnZn ferrite for Network Communication Transformers.介绍通讯变压器用 MnZn 铁氧体的发展近况;为适应通讯变压器的使用环境需要,我们开发制作出具有宽温高叠加特性的 MnZn 铁氧体 TD5W 材料。
5)Fe-poor Mn-Zn ferrite贫铁 Mnzn 铁氧体
6)MnZn soft ferriteMnZn软磁铁氧体
延伸阅读
钡铁氧体类塑料磁体分子式:CAS号:性质:指以钡铁氧体磁性粉末与高分子材料复合构成的复合型高分子磁性体。钡铁氧体是由α型Fe2O3与锶的氧化物通过烧结制成,属于新型稀土磁性材料。与塑料等高分子材料复合后构成永久性磁体,其磁能积可以达到相当高的水平。其应用领域与锶铁氧体类塑料磁体相同。
