DocumentCode
1322724
Title
Low-loss electromagnetic composites for RF and microwave applications
Author
Hong Wang ; Haibo Yang ; Feng Xiang ; Xi Yao
Author_Institution
Electron. Mater. Res. Lab., Xi´an Jiaotong Univ., Xi´an, China
Volume
58
Issue
9
fYear
2011
fDate
9/1/2011 12:00:00 AM
Firstpage
1947
Lastpage
1953
Abstract
Low-loss electromagnetic composites with high permittivity and permeability will benefit the miniaturization and multifunctional of RF devices. A kind of low-loss dielectric-magnetic ceramic-ceramic composite was developed by hybrid processing technology with the goal of integrating the dielectric properties and magnetic properties. The hybrid processing technology exhibits the advantage of lowered sintering temperatures for the composites while retaining good microstructure and high performance. By introducing elastomer as matrix, a kind of flexible low-loss dielectric-magnetic ceramic-polymer composite was prepared and studied. The obtained flexible dielectric-magnetic ceramic-polymer composite exhibited low loss and good mechanical properties. The results show good effects on lowering the dielectric loss and extending the cut-off magnetic frequency of the electromagnetic composite. Methods for tailoring the properties of the multifunctional composites were proposed and discussed.
Keywords
ceramics; crystal microstructure; dielectric losses; filled polymers; fracture; magnetic permeability; permittivity; sintering; stress-strain relations; RF application; cut-off magnetic frequency; dielectric loss; elastomer; flexible low-loss dielectric-magnetic ceramic-polymer composite; hybrid processing technology; low-loss dielectric-magnetic ceramic-ceramic composite; low-loss electromagnetic composites; magnetic permeability; mechanical properties; microstructure; microwave application; multifunctional composites; permittivity; sintering temperature; Ceramics; Dielectric losses; Electromagnetics; Magnetic losses; Permittivity; Polymers; Ceramics; Elastomers; Electromagnetic Phenomena; Hot Temperature; Materials Testing; Microwaves; Radio Frequency Identification Device; Radio Waves; Wireless Technology;
fLanguage
English
Journal_Title
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
Publisher
ieee
ISSN
0885-3010
Type
jour
DOI
10.1109/TUFFC.2011.2035
Filename
6020866
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