烧结铁氧体

La，Co离子取代法生产高性能烧结铁氧体的工艺研究

Research on the Process of High Performance Sintered Ferrite Made by La , Co-ion Substitution Method

低温烧结铁氧体粉料的改良与开发

Improvement and Development of Low Temperature Sintered Ferrite Powder

表面花斑的烧结铁氧体磁体的生产工艺的改进

Improvement of Production Process of Ferrite Magnets with Surface Spots

探讨了影响低温烧结铁氧体材料磁性能的可能因素。

This paper also discussed the potential factors that affected low-temperature sintered hexaferrites .

介绍了片式电感用低温烧结铁氧体的现状及其发展趋势。

The status and the development tendency of the low-temperature-sintering hexagonal ferrites used in the chip inductor were introduced .

以国家863计划重大项目和第八届国际铁氧体会议重要论文为据，综合分析、论述了低温烧结铁氧体粉料的进展状况。

The progress of low temperature sintering ferrite powder are reviewed on the basis of the major projects under The State 863 Plan and the important theses of The 8th International Conference on Ferrite .

综述了外加电流阴极保护用陶瓷阳极，包括固态烧结铁氧体陶瓷阳极、等离子喷涂铁氧体阳极和混合金属氧化物阳极的研究现状。

A review of recent development of some ceramic anodes for impressed current cathodic protection is given , which include powder sintered ferrite ceramic anodes , plasma sprayed ferrite anodes and mixed metal oxide anodes .

低温烧结Li铁氧体及其频率特性

Low temperature Sintered Li Ferrites and Their Frequency Properties

LTCC用低温烧结Mg-Cu-Zn铁氧体的研究

Study on Low Temperature Sintered Mg-Cu-Zn Ferrites for LTCC Technology

半取向烧结锶铁氧体的研究

Research On Half Orientation Sintered Strontium Ferrites

烧结是铁氧体材料制备过程中最重要的工艺过程，原料是影响铁氧体质量的重要因素。

Sintering is the most important technology process producing ferrite materials . Raw materials are important factors which affect ferrite quality .

氧化物法低温烧结Li系铁氧体的固相反应、致密化过程及微波性能

Solid Reaction , Densification and Microwave Properties of Low Temperature Sintered Li Ferrites Prepared by Oxide Method

并讨论了不同的升温烧结机制影响铁氧体结构和形貌的原因。

The formative mechanism of the different structures and morphologies of the prepared Ba - ferrite nanoparticles was also discussed .

不同的烧结温度对铁氧体材料的饱和磁化强度、剩余磁化强度、矩形比、矫顽力、温度特性以及介电特性影响不尽相同。

Li-ferrite shows different properties in saturation magnetic inductance intensity , remanence , squareness ratio , coercive force temperature characteristics and dielectric loss at different sintering temperature . 3 .

烧结温度对Mn-Zn铁氧体吸波性能的影响

Effect of sintering temperature on microwave absorbing behaviour of Mn-Zn ferrite

用于LTCF工艺的低温烧结M型Ba铁氧体的显微结构与电磁特性

The Microstructure and Electromagnetic Properties of Low-temperature Sintered M-type BaFe_ ( 12 ) O_ ( 19 ) Ferrite for LTCF Technology

采用微波高温烧结炉对Ni-Zn铁氧体软磁材料进行公斤级烧结工艺研究。

Kilograms of Ni-Zn ferrite magnetic materials has been successfully sintered in an industrial-use microwave-sintering furnace at very low energy consuming .

因此，开发磁导率高、饱和磁化强度高、截止频率高并能低温烧结的NiZn铁氧体材料，对推动微电子制造业的进一步发展有着重要的意义。

Therefore , it is of great significance to develop a new Ni-Zn ferrite material with high permeability , high saturation magnetization , high cut-off frequency and low sintering temperature , which will surely promote the development of micro-electronic manufacturing industry .

用低温烧结六角晶系铁氧体制造的片式电感的使用频率（GHz范围）比用尖晶石铁氧体的（低于300MHz）要高，使得低温烧结六角晶系铁氧体更适于制造高频片式电感。

The application frequency ( GHz range ) of the chip inductor made from hexagonal ferrites is much higher than that made from spinel ferrites ( below 300MHz ) , it makes hexagonal ferrites more suitable for fabricating higher application frequency chip inductor .

烧结温度对锰锌铁氧体的起始磁导率有重要影响。

And sintering temperature has an important effect on the initial permeability of Mn-Zn ferrites .

通过改变烧结温度，钴铁氧体空心微球的形貌发生变化。

The shape change of Co-ferrite microspheres would be occurred when the sintering temperature altered .

本文主要介绍了多层片式电感用低温烧结六角晶系铁氧体的晶体结构、制备工艺及电磁特性。

The crystal-structure , fabricating process and electronic-magnetic properties of the low-temperature-sintered hexagonal ferrites applied in Multilayer Chip Inductor ( MLCI ) are introduced in this paper .

低温烧结六角晶系铁氧体电磁特性研究旋转磁化法在六角晶系中的应用：理论与模拟

The Study of Electronic Magnetic Properties of the Low-Temperature-Sintered Hexagonal Ferrites ; Determination of the in-plane anisotropy field in hexagonal systems via rotational magnetization : Theoretical model and Monte Carlo simulations

Mn-Zn铁氧体烧结推板窑是一种在氮气气氛保护下烧结铁氧体的连续式推板隧道窑（以下简称连续式氮窑）。

Pushing kiln for sintering Mn-Zn ferrite magnet is a kind of continuously pushing tunnel kiln ( noted Continuous Nitrogen Kiln below ), in which ferrite magnet is sintered under Nitrogen protection .