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1)  barium ferrite thick films
钡铁氧体厚膜
1.
The effects of sintering temperature, sintering time, sintering pressure and the magnitude of orientation magnetic field on the properties of the barium ferrite thick films were studied.
本文采用丝网印刷的方法制备微波钡铁氧体厚膜,研究了工艺条件如烧结温度、烧结时间、烧结压力以及取向磁场对钡铁氧体厚膜微结构和磁性能的影响。
2)  barium ferrite thin films
钡铁氧体薄膜
1.
Finally,some application fields of barium ferrite thin films are summarized,and problems and the developing trend also discussed.
钡铁氧体薄膜有着良好的磁性能。
3)  barium ferrite
钡铁氧体
1.
Study on the synthesis and electromagnetic properties of polyaniline-barium ferrite composites;
聚苯胺/钡铁氧体复合材料制备及电磁性能研究
2.
A study on dispersion behavior of barium ferrite in enthanol;
钡铁氧体在乙醇中分散行为的研究
3.
Effects of Bi2O3 doping on the mcrostructure and high-frequency magnetic properties of low-temperature sintered Co-Ti substituted barium ferrites;
Bi_2O_3对低烧Co-Ti替代钡铁氧体显微结构与高频磁性的影响
4)  barium hexaferrite
钡铁氧体
1.
Development of study on nanophase barium hexaferrite absorber;
纳米钡铁氧体吸波材料的研究进展
2.
In this paper, the preparation methods of utrafine barium hexaferrite powders were studied, including cryochemical method, spay drying method, chemical coprecipitation method, hydrothermal synthesis, glass crysrallization, micromulsion mediated process, metal organic method, organic resin method, self-propagating high-temperature synthesis and supercritical fluid drying method, et al.
综述了近年来在M型(磁铅石结构)钡铁氧体超微粉体合成领域的一些研究进展,包括低温化学法、喷雾热解法、化学共沉淀法、水热法、玻璃晶化法、微乳液法、金属有机物水解法、有机树脂法、自蔓延高温合成法、溶胶-凝胶法等。
3.
Hexagonal plateshaped barium hexaferrite was directly synthesized by using ferrous chloride (FeCl2) as a starting material at 230 °C.
用FeCl2,BaCl2·2H2O,KNO3作为前驱体溶液,在230°C水热直接合成六角片状钡铁氧体,降低了钡铁氧体的合成温度。
5)  Ba-ferrite
钡铁氧体
1.
Formation Process of M-type Ba-ferrite from Precipitation-toptactic Reaction Method;
化学沉淀-局部规整法制备棒状M型钡铁氧体的形成历程
2.
Two processes to prepare Ba-ferrite particles for low density magnetic recording made by ceramic techniques are introduced in this paper.
介绍了采用陶瓷技术制备低密度磁记录钡铁氧体磁粉的两条技术工艺。
3.
Citrate sol-gel process was used to prepare M-type hexagonal Ba-ferrite nanocrystals.
以硝酸钡、硝酸铁和氨水为原料,采用柠檬酸sol-gel工艺,制备了M型六角钡铁氧体(BaFe12O19)纳米晶。
6)  Ba ferrite
钡铁氧体
1.
In order to improve the microwave absorbing ability of SiC fiber and maintain its good mechanical properties, sol-gel technology was adopted to deposit a layer of Ba ferrite on the surface of SiC fiber.
为了改善可应用于结构隐身吸波材料的碳化硅纤维的吸波性能并保证其良好力学性能,采用溶胶-凝胶技术在碳化硅纤维表面涂敷一层钡铁氧体材料,重点探讨了溶胶-凝胶工艺中水量、pH 值和温度等主要工艺参量对碳化硅纤维表面钡铁氧体成膜特性的影响,采用正交设计的实验方法研究高温热处理的温度和时间两个主要影响因素对镀覆钡铁氧体的碳化硅纤维磁性能的影响。
2.
In order to improve the margin for operating temperature changes to get high recording performance,the Co Sn substituted Ba ferrite Ba Fe 12-2x Co x Sn xO 19 (x=0 to 1.
40)的Co-Sn 替代钡铁氧体微细磁粉的磁性及其与温度的依赖关系进行了测量与分析。
3.
Nano-NiZn ferrite, nano-Ba ferrite and nano-NiZnCu ferrite were produced by sol-gel method and their properties were measured.
本文采用溶胶-凝胶法制备了纳米镍锌铁氧体,纳米钡铁氧体,纳米镍锌铜铁氧体三种微波吸收剂并对其特性进行了研究。
补充资料:钡铁氧体
CAS:12047-11-9
分子式:Ba·Fe12O19
中文名称:钡铁氧体;铁钡氧化物捎结成的永久磁铁
英文名称:barium ferrate;barium hexaferrite;ferroxdure;barium dodecairon nonadecaoxide
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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