Dual-band and thermo-mechanical design method for radome walls with graded porous structure

Licheng Zhou; Ju Yang Ju; Yongmao Pei; Daining Fang

doi:10.1080/09205071.2016.1202149

Dual-band and thermo-mechanical design method for radome walls with graded porous structure

Licheng Zhou, Ju Yang Ju, Yongmao Pei^*, Daining Fang

^*Corresponding author for this work

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

4 Citations (Scopus)

Abstract

This paper provides a method for design of high-temperature dual-band radome walls with graded porous structure. Both of the dual-band performances and the thermo-mechanical properties under loading-free and loading conditions of the proposed structures are taken into account. Results demonstrate the effectiveness of the method for design of high-temperature dual-band structures, of which the design frequency can be arbitrarily selected and subsequently the pass-bands are selectable, rather than design of a structure with specific dimensions and pass-bands. Results also show that the dual-band structures with graded porous structure can achieve better thermo-mechanical properties compared to traditional A-sandwich structures, and assembly stress can enhance the thermal and mechanical bearing capabilities of the high-temperature dual-band structures as well.

Original language	English
Pages (from-to)	1391-1406
Number of pages	16
Journal	Journal of Electromagnetic Waves and Applications
Volume	30
Issue number	11
DOIs	https://doi.org/10.1080/09205071.2016.1202149
Publication status	Published - 23 Jul 2016
Externally published	Yes

Keywords

dual-band radome
graded porous structure
high-temperature
thermo-mechanical design

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10.1080/09205071.2016.1202149

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title = "Dual-band and thermo-mechanical design method for radome walls with graded porous structure",

abstract = "This paper provides a method for design of high-temperature dual-band radome walls with graded porous structure. Both of the dual-band performances and the thermo-mechanical properties under loading-free and loading conditions of the proposed structures are taken into account. Results demonstrate the effectiveness of the method for design of high-temperature dual-band structures, of which the design frequency can be arbitrarily selected and subsequently the pass-bands are selectable, rather than design of a structure with specific dimensions and pass-bands. Results also show that the dual-band structures with graded porous structure can achieve better thermo-mechanical properties compared to traditional A-sandwich structures, and assembly stress can enhance the thermal and mechanical bearing capabilities of the high-temperature dual-band structures as well.",

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T1 - Dual-band and thermo-mechanical design method for radome walls with graded porous structure

AU - Zhou, Licheng

AU - Yang Ju, Ju

AU - Pei, Yongmao

AU - Fang, Daining

PY - 2016/7/23

Y1 - 2016/7/23

N2 - This paper provides a method for design of high-temperature dual-band radome walls with graded porous structure. Both of the dual-band performances and the thermo-mechanical properties under loading-free and loading conditions of the proposed structures are taken into account. Results demonstrate the effectiveness of the method for design of high-temperature dual-band structures, of which the design frequency can be arbitrarily selected and subsequently the pass-bands are selectable, rather than design of a structure with specific dimensions and pass-bands. Results also show that the dual-band structures with graded porous structure can achieve better thermo-mechanical properties compared to traditional A-sandwich structures, and assembly stress can enhance the thermal and mechanical bearing capabilities of the high-temperature dual-band structures as well.

AB - This paper provides a method for design of high-temperature dual-band radome walls with graded porous structure. Both of the dual-band performances and the thermo-mechanical properties under loading-free and loading conditions of the proposed structures are taken into account. Results demonstrate the effectiveness of the method for design of high-temperature dual-band structures, of which the design frequency can be arbitrarily selected and subsequently the pass-bands are selectable, rather than design of a structure with specific dimensions and pass-bands. Results also show that the dual-band structures with graded porous structure can achieve better thermo-mechanical properties compared to traditional A-sandwich structures, and assembly stress can enhance the thermal and mechanical bearing capabilities of the high-temperature dual-band structures as well.

KW - dual-band radome

KW - graded porous structure

KW - high-temperature

KW - thermo-mechanical design

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JO - Journal of Electromagnetic Waves and Applications

JF - Journal of Electromagnetic Waves and Applications

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Dual-band and thermo-mechanical design method for radome walls with graded porous structure

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Keywords

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