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Journal of Materials Science: Materials in Electronics
Erschienen in: Journal of Materials Science: Materials in Electronics 13/2019

24.06.2019

Magnetic and microwave absorption properties in 2.6–18 GHz of A-site or B-site substituted BaFe12O19 ceramics

verfasst von: Gangli Feng, Wancheng Zhou, Hongwei Deng, Minghao Yang, Yuchang Qing, Fa Luo, Dongmei Zhu, Zhibin Huang, Yingying Zhou, Chunhai Wang

Erschienen in: Journal of Materials Science: Materials in Electronics | Ausgabe 13/2019

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Abstract

The A-site substituted (20 mol% Sr2+ and Ca2+) and B-site substituted (20 mol% Co3+ and Mn3+) M-type BaFe12O19 (BFO) ceramics were synthesized and the magnetic properties and microwave absorption were investigated. The A-site substitution by Ca2+ or B-site substitution by Co3+ can effectively modify the magnetic properties of the M-type BFO. The B-site dopant suppresses the complex permittivity more greatly than A-site ones and substitution of Co3+ at B-site changes the microwave permeability response to a resonate-like manner in 2.6–18 GHz. The A-site substitution is more effective on the enhancement of peak absorption whilst B-site substitution is more effective on the enhancement of absorption bandwidth. A wide bandwidth of reflection loss (RL) value below − 5 dB (> 70% microwave absorption) of the BaFe11.8Mn0.2O19 ceramic is obtained in 3.6–18 GHz and the minimum RL of − 18.5 dB is obtained at 7.2 GHz with a thickness of 2.5 mm.
Vorheriger Artikel TEM study of incommensurate superstructure in Pb1−0.5xNbx((Zr0.52Sn0.48)0.955Ti0.045)1−xO3 ceramics with 0–1 switching characteristic strain and high energy storage density
Nächster Artikel High ethanol gas sensing property and modulation of magnetic and AC-conduction mechanism in 5% Mg-doped La0.8Ca0.1Pb0.1FeO3 compound

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Metadaten
Titel
Magnetic and microwave absorption properties in 2.6–18 GHz of A-site or B-site substituted BaFe12O19 ceramics
verfasst von
Gangli Feng
Wancheng Zhou
Hongwei Deng
Minghao Yang
Yuchang Qing
Fa Luo
Dongmei Zhu
Zhibin Huang
Yingying Zhou
Chunhai Wang
Publikationsdatum
24.06.2019
Verlag
Springer US
Erschienen in
Journal of Materials Science: Materials in Electronics / Ausgabe 13/2019
Print ISSN: 0957-4522
Elektronische ISSN: 1573-482X
DOI
https://doi.org/10.1007/s10854-019-01596-3

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