Radar-stealth and load-bearing corrugated sandwich structures with superior environmental adaptability

The engineering design of lightweight multifunctional composite structures is an attractive research subject with enormous potential in the aerospace and marine fields. Nevertheless, the mechanical and electromagnetic performance of variable-curvature structures has been seldom investigated. Herein,...

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Published inComposites science and technology Vol. 227; p. 109594
Main Authors Zhang, Zhong, Lei, Hongshuai, Yang, Haiyang, Xu, Mengchuan, Chen, Mingji, Wang, Changxian, Fang, Daining
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 18.08.2022
Subjects
Compressive prediction model
Environmental adaptability
Microwave stealth performance
Multifunctional composite structure
Sinusoidal corrugated beam
Multifunctional composite structure
Compressive prediction model
Microwave stealth performance
Environmental adaptability
Sinusoidal corrugated beam
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Abstract The engineering design of lightweight multifunctional composite structures is an attractive research subject with enormous potential in the aerospace and marine fields. Nevertheless, the mechanical and electromagnetic performance of variable-curvature structures has been seldom investigated. Herein, a novel multifunctional sinusoidal corrugated sandwich structure with impedance-type frequency selective surface (FSS) is proposed to provide superior out-of-plane load-bearing capacity and broadband microwave stealth performance. A precise theoretical model is proposed to predict the out-of-plane compressive strength of sinusoidal corrugated structures. The model is based on the Timoshenko beam theory and a modified plastic hinge theory, considering the actual stress distribution on the cross-section. The selective laser sintering (SLS) method is employed to fabricate a series of specimens with different structural parameters. The simulation analysis and experimental results suggest that the proposed mechanical model possesses high precision and wide applicability. The proposed multifunctional sandwich structure has an average ultimate compressive strength of 1.106 MPa and broadband microwave stealth (maximum reflectivity of −8.8 dB in 2–18 GHz). Environmental factors are found to have little effect on microwave reflectivity, including out-of-plane compressing (2 dB), frosting (0.5 dB) and holing (0.5 dB). The present study provides an example of broadband microwave stealth and load-bearing structure with superior environmental adaptability. [Display omitted] •A corrugation configuration is combined with impedance-type FSS to form a multifunctional sandwich structure.•A widely applicable mechanical prediction model for sinusoidal corrugations is established.•Broadband radar-stealth properties are acquired for different specimen arrangements.•Multiple environmental factors exhibit little effect on structural performance.
AbstractList The engineering design of lightweight multifunctional composite structures is an attractive research subject with enormous potential in the aerospace and marine fields. Nevertheless, the mechanical and electromagnetic performance of variable-curvature structures has been seldom investigated. Herein, a novel multifunctional sinusoidal corrugated sandwich structure with impedance-type frequency selective surface (FSS) is proposed to provide superior out-of-plane load-bearing capacity and broadband microwave stealth performance. A precise theoretical model is proposed to predict the out-of-plane compressive strength of sinusoidal corrugated structures. The model is based on the Timoshenko beam theory and a modified plastic hinge theory, considering the actual stress distribution on the cross-section. The selective laser sintering (SLS) method is employed to fabricate a series of specimens with different structural parameters. The simulation analysis and experimental results suggest that the proposed mechanical model possesses high precision and wide applicability. The proposed multifunctional sandwich structure has an average ultimate compressive strength of 1.106 MPa and broadband microwave stealth (maximum reflectivity of −8.8 dB in 2–18 GHz). Environmental factors are found to have little effect on microwave reflectivity, including out-of-plane compressing (2 dB), frosting (0.5 dB) and holing (0.5 dB). The present study provides an example of broadband microwave stealth and load-bearing structure with superior environmental adaptability. [Display omitted] •A corrugation configuration is combined with impedance-type FSS to form a multifunctional sandwich structure.•A widely applicable mechanical prediction model for sinusoidal corrugations is established.•Broadband radar-stealth properties are acquired for different specimen arrangements.•Multiple environmental factors exhibit little effect on structural performance.
ArticleNumber 109594
Author Yang, Haiyang
Xu, Mengchuan
Chen, Mingji
Zhang, Zhong
Wang, Changxian
Fang, Daining
Lei, Hongshuai
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Keywords Multifunctional composite structure
Compressive prediction model
Microwave stealth performance
Environmental adaptability
Sinusoidal corrugated beam
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Snippet The engineering design of lightweight multifunctional composite structures is an attractive research subject with enormous potential in the aerospace and...
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StartPage 109594
SubjectTerms Compressive prediction model
Environmental adaptability
Microwave stealth performance
Multifunctional composite structure
Sinusoidal corrugated beam
Title Radar-stealth and load-bearing corrugated sandwich structures with superior environmental adaptability
URI https://dx.doi.org/10.1016/j.compscitech.2022.109594
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