Optimal design for high-temperature broadband radome wall with symmetrical graded porous structure

L. C. Zhou; Y. M. Pei; R. B. Zhang; D. N. Fang

doi:10.2528/PIER12030203

Optimal design for high-temperature broadband radome wall with symmetrical graded porous structure

L. C. Zhou, Y. M. Pei, R. B. Zhang, D. N. Fang

Peking University

Research output: Contribution to journal › Article › peer-review

15 Citations (Scopus)

Abstract

This study focuses on electromagnetic and thermo- mechanical optimal design for high-temperature broadband radome wall with symmetrical graded porous structure. The position- dependent porosity increases from the two surfaces of the structure to its intermediate layer. Electromagnetic and thermo-mechanical properties of the proposed structure are investigated simultaneously via numerical simulations. Optimal results suggest that the symmetrical porous structure possesses better broadband transmission performance in the 1-100 GHz frequency range, in contrast to a traditional A-sandwich structure. The thermo-mechanical investigation also indicates that the novel structure meets the requirement for high- temperature (up to 1400°C) applications.

Original language	English
Pages (from-to)	1-14
Number of pages	14
Journal	Progress in Electromagnetics Research
Volume	127
DOIs	https://doi.org/10.2528/PIER12030203
Publication status	Published - 2012
Externally published	Yes

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AU - Pei, Y. M.

AU - Zhang, R. B.

AU - Fang, D. N.

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AB - This study focuses on electromagnetic and thermo- mechanical optimal design for high-temperature broadband radome wall with symmetrical graded porous structure. The position- dependent porosity increases from the two surfaces of the structure to its intermediate layer. Electromagnetic and thermo-mechanical properties of the proposed structure are investigated simultaneously via numerical simulations. Optimal results suggest that the symmetrical porous structure possesses better broadband transmission performance in the 1-100 GHz frequency range, in contrast to a traditional A-sandwich structure. The thermo-mechanical investigation also indicates that the novel structure meets the requirement for high- temperature (up to 1400°C) applications.

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Optimal design for high-temperature broadband radome wall with symmetrical graded porous structure

Abstract

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