Computational evaluation of absorption characteristics of ceramic-based auxetic materials in X-band frequency range

Phanendra Kumar, A; Nakka, Rajesh; Harursampath, Dineshkumar; A Ponnusami, Sathiskumar

doi:10.1088/1361-665x/acf53d

Smart Mater. Struct.

2023

DOI: 10.1088/1361-665x/acf53d

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Computational evaluation of absorption characteristics of ceramic-based auxetic materials in X-band frequency range

A Phanendra Kumar,

Rajesh Nakka,

Dineshkumar Harursampath

et al.

Abstract: This research study investigates the absorption capabilities of ceramic-based auxetic metamaterials within the X-band frequency range, emphasising their potential application in stealth technology. Four distinct auxetic topologies have been chosen for this purpose: star, re-entrant, anti-tetrachiral, and missing-rib/cross-chiral while maintaining an equal cross-sectional area for comparison analysis. A computationally efficient homogenisation scheme based on the variational asymptotic method is used to evaluat… Show more

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2024

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Cited by 2 publications

References 83 publications

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A novel engineered sandwich composite with ceramic-coated graphite fibre-reinforced face sheets and an auxetic core for enhanced broadband electromagnetic absorption: design using multiscale computational analysis

Phanendra Kumar,

Harursampath,

Ponnusami

2024

Smart Mater. Struct.

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A novel sandwich composite is designed for enhanced broadband absorption using a multiscale computational analysis. The sandwich panel is configured with BaTiO3 coated graphite fiber reinforced polymer (C-GFRP) composite, while BaTiO3 based auxetic material is used as the core material. A computationally efficient in-house tool based on the variational asymptotic method is used to homogenise the electromagnetic properties and evaluate the reflection loss characteristics of the proposed sandwich structure using the scattering matrices. A detailed parametric study of 300 analyses is conducted to identify the optimal sandwich panel configurations for achieving broadband reflection loss under the normal incidence of transverse electric (TE) and transverse magnetic (TM) polarised waves. Two different configurations have been obtained, satisfying the requirements of broadband reflection loss in the X-band frequency range. Configuration (a) Vf = 15% without any ceramic coating, and configuration (b) Vf = 20% with ceramic coating volume fraction (Cf) of 70%. Configuration (a) and (b) maintained the desired reflection loss of greater than -10 dB up to an incidence angle of 40◦ and 60◦, respectively. With the demonstrated capability of covering the entire broadband frequency range, the proposed configurations can serve as baselines to explore novel ceramic-based engineered composite architectures for broadband absorption applications.

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A novel engineered sandwich composite with ceramic-coated graphite fibre-reinforced face sheets and an auxetic core for enhanced broadband electromagnetic absorption: design using multiscale computational analysis

Phanendra Kumar,

Harursampath,

Ponnusami

2024

Smart Mater. Struct.

View full text Add to dashboard Cite

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Fatigue response of auxetic structures: A review

Parente,

Reis,

Berto

2024

Fatigue Fract Eng Mat Struct

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The fatigue behavior of auxetic metamaterials is an interesting and recent research topic that will deserve future attention. How different geometries can interact with cyclic loadings is still an open question for these kinds of structures. Therefore, this review aims to provide an update on the state of the art on the fatigue response of auxetic structures, showing which research questions are open and possible future developments. As will be evident from this review, there is still room for further improvements that will allow these structures to become much more attractive for load‐bearing applications.

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Computational evaluation of absorption characteristics of ceramic-based auxetic materials in X-band frequency range

Cited by 2 publications

References 83 publications

A novel engineered sandwich composite with ceramic-coated graphite fibre-reinforced face sheets and an auxetic core for enhanced broadband electromagnetic absorption: design using multiscale computational analysis

A novel engineered sandwich composite with ceramic-coated graphite fibre-reinforced face sheets and an auxetic core for enhanced broadband electromagnetic absorption: design using multiscale computational analysis

Fatigue response of auxetic structures: A review

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