Magnetic and Microwave Absorbing Properties of Co and Ti-Doped Sr M-Type Hexaferrites in the X-Band Frequencies

2019 International Conference on Radar, Antenna, Microwave, Electronics, and Telecommunications (ICRAMET) Pub Date : 2019-10-01 DOI:10.1109/ICRAMET47453.2019.8980394

A. Septiani, Handrian Indra Sanjaya, Dedi

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引用次数: 1

Abstract

Hexagonal ferrites or hexaferrites are prominent class of materials in the applications of microwave and magnetic applications. Have been utilized widely for microwave passive components such as circulators, the versatility to dope with other chemical elements and its high permeability enable hexaferrites as a strong candidate in electromagnetic interference shielding application. In this study, an attempt to alter the magnetic properties and microwave responses of Sr M-type hexaferrites was conducted by substituting Fe atoms with Co and Ti atoms through mechanical alloying method. This work found that the introduction of the doping elements Co-Ti dramatically decreases the coercivity at Co Ti content x from 0 to 1, whereas, has little effect on the saturation mass magnetization. Two distinct dips of the reflection loss in the range of 7 to 13 GHz were observed for all samples. For the first dip, the effective absorption bandwidth does not differ significantly. At the second dip, a relatively broader effective absorption bandwidth is predicted extending the upper limit of the measurement at 13 GHz for samples x at 0.3, 0.5, and 1. In addition, a notable reflection loss of −31 dB was observed for sample x equal to 0.3.

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Co和ti掺杂Sr m型六铁体在x波段的磁性和微波吸收性能

六方铁氧体或六铁氧体是一类在微波和磁性应用中突出的材料。六铁氧体在微波无源器件如环行器中得到了广泛的应用，其可与其他化学元素混合的通用性和高磁导率使其成为屏蔽电磁干扰的有力候选材料。本研究试图通过机械合金化的方法，用Co和Ti原子取代Fe原子来改变Sr m型六铁体的磁性能和微波响应。本研究发现，Co-Ti掺杂元素的引入显著降低了Co-Ti含量x从0到1的矫顽力，而对饱和质量磁化强度的影响很小。在7至13 GHz范围内，所有样品的反射损耗都有两个明显的下降。对于第一次倾角，有效吸收带宽没有显著差异。在第二次下降时，预测了相对更宽的有效吸收带宽，延长了样品x在0.3,0.5和1时的测量上限为13 GHz。此外，当样品x = 0.3时，观察到−31 dB的显著反射损耗。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 International Conference on Radar, Antenna, Microwave, Electronics, and Telecommunications (ICRAMET)

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