DocumentCode
59172
Title
Prediction of Microwave Absorption Behavior of Grading Honeycomb Composites Based on Effective Permittivity Formulas
Author
Peiheng Zhou ; Liru Huang ; Jianliang Xie ; Difei Liang ; Haipeng Lu ; Longjiang Deng
Author_Institution
Nat. Eng. Res. Center of Electromagn. Radiat. Control Mater., Univ. of Electron. Sci. & Technol. of China, Chengdu, China
Volume
63
Issue
8
fYear
2015
fDate
Aug. 2015
Firstpage
3496
Lastpage
3501
Abstract
Microwave absorbing honeycomb composites with grading coating thickness are prepared by impregnation of aramid paper frame within water solutions of conductive carbon blacks. Based on effective medium method, grading impedance in the composites can be theoretically expressed by a linear approximation of the inversely tapered effective permittivity at wave propagation direction, which provides a feasible way to optimize the design of microwave absorbing honeycomb structures. The consistent result of calculations and experimental measurements for positive impedance grading design confirms the broadband absorption effect in high frequencies.
Keywords
approximation theory; composite materials; electric impedance; electromagnetic wave absorption; honeycomb structures; microwave materials; microwave propagation; optimisation; permittivity; broadband absorption effect; conductive carbon blacks; design optimisation; effective medium method; grading coating thickness; grading honeycomb composites; impedance grading design; inversely tapered effective permittivity; linear approximation; microwave absorbing honeycomb structures; microwave absorption behavior prediction; wave propagation direction; Absorption; Coatings; Impedance; Impedance matching; Microwave theory and techniques; Permittivity; Random access memory; Effective permittivity; Grading honeycomb composite; effective permittivity; grading honeycomb composite; impedance matching; microwave absorption;
fLanguage
English
Journal_Title
Antennas and Propagation, IEEE Transactions on
Publisher
ieee
ISSN
0018-926X
Type
jour
DOI
10.1109/TAP.2015.2431721
Filename
7105386
Link To Document