Parrot Beak-Inspired Metamaterials with Friction and Interlocking Mechanisms 3D/4D Printed in Micro and Macro Scales for Supreme Energy Absorption/Dissipation

Hamzehei, R; Bodaghi, M; Iglesias Martinez, JA; Ji, Q; Ulliac, G; Kadic, M; Wang, C; Zolfagharian, Ali; Wu, N

Parrot Beak-Inspired Metamaterials with Friction and Interlocking Mechanisms 3D/4D Printed in Micro and Macro Scales for Supreme Energy Absorption/Dissipation

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posted on 2023-04-04, 02:03 authored by R Hamzehei, M Bodaghi, JA Iglesias Martinez, Q Ji, G Ulliac, M Kadic, C Wang, Ali ZolfagharianAli Zolfagharian, N Wu

Parrot Beak-Inspired Metamaterials with Friction and Interlocking Mechanisms 3D/4D Printed in Micro and Macro Scales for Supreme Energy Absorption/Dissipation

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Journal

Advanced Engineering Materials

Article number

2201842

Pagination

1-8

Location

London, Eng.

Publisher DOI

https://doi.org/10.1002/adem.202201842

ISSN

1438-1656

eISSN

1527-2648

Language

en

Publication classification

C1 Refereed article in a scholarly journal

Publisher

Wiley

Publication URL

http://dx.doi.org/10.1002/adem.202201842

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Parrot Beak-Inspired Metamaterials with Friction and Interlocking Mechanisms 3D/4D Printed in Micro and Macro Scales for Supreme Energy Absorption/Dissipation

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