Effect of Ni fillers on microwave absorption and effective permeability of NiCuZn ferrite/Ni/polymer functional composites

Effect of Ni fillers on microwave absorption and effective permeability of NiCuZn ferrite/Ni/polymer functional composites

► Ni nanofillers increase effective permeability of ferrite–polymer composites. ► Microwave absorbing properties were greatly enhanced with Ni nanofillers. ► More Ni nanofillers exhibit narrower absorption bandwidth. ► Microwave absorbers with Ni nanofillers only need thinner thickness. ► Ni nanofil...

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Bibliographic Details
Published in:Journal of alloys and compounds 2013-02, Vol.550, p.39-45
Main Authors: Tong, Shi-Yuan, Tung, Mean-Jue, Ko, Wen-Song, Huang, Yu-Ting, Wang, Yen-Ping, Wang, Li-Chun, Wu, Jenn-Ming
Format: Article
Language:eng
Subjects:
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Electromagnetic properties
Exact sciences and technology
Ferrite
Fillers
Microwave absorption
Microwave and radio-frequency interactions (excluding resonances)
Microwaves
Nanostructure
Ni fillers
Nickel
NiCuZn ferrites
Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation
Other interactions of matter with particles and radiation
Permeability
Physics
Polymer composites
Polymer matrix composites
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Summary:► Ni nanofillers increase effective permeability of ferrite–polymer composites. ► Microwave absorbing properties were greatly enhanced with Ni nanofillers. ► More Ni nanofillers exhibit narrower absorption bandwidth. ► Microwave absorbers with Ni nanofillers only need thinner thickness. ► Ni nanofillers lower the matching frequency of ferrite–polymer composites. This work investigated the concentration dependence of the nanosized Ni fillers on crystallographic structure, electrical transport, effective permeability, constitutive electromagnetic property, and microwave-absorbing behavior of the insulating polymer matrix embedded with NiCuZn ferrites (NCZFs). The effective permeability of the percolation ferrite composites which are composed of three-phases, 0.55 NCZF/(x) nano Ni/(0.45-x) polymer, increases with x till x=0.1. It is due to the Ni fillers acting as magnetic bridge to enhance magnetic exchange coupling and to decrease the demagnetization field between ferrite granules. The electrical resistivity decreases abruptly above the percolation threshold (x=0.02). It is ascribed to the narrowed polymer gaps and the significant decrease in the grain boundary resistance after the Ni additions. The frequency response of the microwave absorption in ferrite composites is attributed to its macroscopic magnetic loss and dielectric loss correlated with domain-wall motion, spin resonance, and dipolar relaxation. Various multilayer microwave absorbers terminated by perfect metal conductor (PMC) are systematically designed utilizing the constitutive electromagnetic properties of ferrite composites. When the Ni concentration is increased, the microwave return loss is greatly enhanced and the absorption band becomes narrower towards the lower frequency. The maximal return loss of single-layer absorbers composing of 7.2mm-thick ferrite composites with x=0.15 is estimated as −53.9dB with an absorption bandwidth 1.72GHz. Due to the decreasing products of matching thickness and frequency at maximal return loss, the incorporation of Ni fillers in ferrite composites facilitates to reduce the absorber thickness. Additionally, the microwave absorbing behaviors of double-layer microwave absorbers with different lamination sequences of Ni-encapsulated ferrite composites were also investigated.
ISSN:0925-8388
1873-4669