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. 2021 Oct;33(41):e2102131.
doi: 10.1002/adma.202102131. Epub 2021 Aug 25.

Pangolin-Inspired Stretchable, Microwave-Invisible Metascale

Changxian Wang  1 Zhisheng Lv  1 Manoj Prabhakar Mohan  2 Zequn Cui  1 Zhihua Liu  3 Ying Jiang  1 Jiaofu Li  1 Cong Wang  1 Shaowu Pan  1 Muhammad Faeyz Karim  2 Ai Qun Liu  2 Xiaodong Chen  1   3
Affiliations

Pangolin-Inspired Stretchable, Microwave-Invisible Metascale

Changxian Wang et al. Adv Mater. 2021 Oct.

Abstract

Microwave-invisible devices are emerging as a valuable technology in various applications, including soft robotics, shape-morphing structures, and textural camouflages, especially in electronic countermeasures. Unfortunately, conventional microwave-absorbing metastructures and bulk absorbers are stretching confined, limiting their application in deformable or special-shaped targets. To overcome such limitations, a conceptually novel soft-rigid-connection strategy, inspired by the pangolin, is proposed. Pangolin-inspired metascale (PIMS), which is a kind of stretchable metamaterial consisting of an electromagnetic dissipative scale (EMD-scale) and elastomer, is rationally designed. Such a device exhibits robust microwave-absorbing capacity under the interference of 50% stretching. Besides, profiting from the covering effect and size-confined effect of EMD-scale, the out-of-plane indentation failure force of PIMS is at least 5 times larger than conventional device. As a proof of concept, the proposed device is conformally pasted on nondevelopable surfaces. For a spherical dome surface, the maximum radar cross-section (RCS) reduction of PIMS is 6.3 dB larger than that of a conventional device, while for a saddle surface, the bandwidth of 10 dB RCS reduction exhibits an increase of 83%. In short, this work provides a conceptually novel platform to develop stretchable, nondevelopable surface conformable functional devices.

Keywords: conformability; microwave absorption; nondevelopable surfaces; penetration resistance; stretchable absorbers.

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