hexagonal ferrite meaning in Chinese
六方晶体铁氧体
六角晶系铁氧体
六角形铁氧体
Examples
- Magnetic and dielectric properties of low - temperature sintered hexagonal ferrite for multi - layer chip inductor in very high frequency
甚高频片式电感用低温烧结平面六角软磁铁氧体的电磁性能 - Recently , magnetoplumbite hexagonal ferrites have been considered as attractive candidates for high - density recording materials because of the good mechanic , chemical properties and high magnetic anisotropy
近年来,磁铅石型六角铁氧体以其优良的机械耐磨性,优异的化学稳定性,高的磁晶各向异性而被认为是一种极有潜力的高密度磁记录介质。 - In this paper based on hexagonal ferrites with high resonance frequency , the electromagnetic properties of the z - type ferrites in the range of 50mhz to 1ghz have been carried out and have sintered at low temperature through the gelatin spontaneous combustion
本文以具有高截止频率的六角铁氧体为基础,开展了50mhz 1ghz的z型六角钡铁氧体电磁性能的研究,并通过凝胶自燃法实现了低温烧结。 - In this thesis , the structure and basic characteristic of hexagonal ferrite absorbent were summarized , and popular methods to prepare ultrafine ferrite particles and hollow microspheres were introduced . hexagonal ferrite hollow microspheres were prepared by flame powders spraying technique and flame suspending solution spraying technique
本文较为系统地概述了六角晶系铁氧体吸收剂的结构和基本特性;介绍了当前铁氧体超微粉末及空心微球的主要制备方法;用氧乙炔火焰粉末喷雾技术与等离子火焰溶液喷雾技术制备了六角晶系铁氧体空心微球,对其结构和性能进行了一系列的探讨工作。 - The experiments showed us : firstly , mediums with different magnetic and dielectric properties had different influence on the microwave - absorbing properties of spinel ferrite ; secondly , magnetic texture treatment greatly affected the microwave - absorbing properties of the spinel ferrite - based mixed material which contained single - domain particles of hexagonal ferrite , changing the matching thickness , the density of area and the position of absorption peaks and increasing the absorption quantity and the 10db bandwidth ; thirdly , the coupling effect between different layers affected the microwave - absorbing properties of the double - layer spinel ferrite - based mixed material , decreasing its matching thickness and density of area and increasing the position of absorption peaks
实验发现: ( 1 )不同磁性与电性的介质对尖晶石型铁氧体吸波特性的影响不同; ( 2 )磁织构化处理对含有六角晶系铁氧体单畴颗粒的尖晶石型铁氧体基混合吸波材料的性能影响很大,可以改变匹配厚度、面密度与吸收峰峰位,提高吸收量与10db带宽; ( 3 )对于双层材料,层间耦合作用会影响其吸波性能,降低匹配厚度与面密度,提高吸收峰峰位。