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Kirigami-inspired metamaterials for programming constitutive laws: mixed-mode multidirectional auxeticity and contact-induced stiffness modulation

Kirigami-inspired metamaterials for programming constitutive laws: mixed-mode multidirectional auxeticity and contact-induced stiffness modulation
Kirigami-inspired metamaterials for programming constitutive laws: mixed-mode multidirectional auxeticity and contact-induced stiffness modulation

Stress-strain constitutive relations and Poisson's ratios are fundamental properties of naturally occurring materials, based on which their mechanical applications can be designed. The lack of tailorability and restricted margin for such critical properties severely limit the bounds of achievable multi-functional engineering designs using conventional materials. Through analytical and numerical analyses, supported by elementary-level physical experiments, we have proposed a kirigami-inspired hybrid metamaterial with programmable deformation-dependent stiffness and mixed-mode multidirectional auxeticity. The metamaterial can transition from a phase of low stiffness to a contact induced phase that brings forth an extensive rise in stiffness. Uniform and graded configurations of multi-layer tessellated material are developed to modulate the constitutive law of the metastructure with augmented programmability in two- and three-dimensional spaces. The proposed metamaterial will lead to extreme lightweight functional designs for impact resistance, shape morphing, multidirectional deformation, vibration and wave propagation control, where the capabilities of intrinsic material can be most optimally exploited.

Mechanical property, Mechanics of materials, Metamaterials
2589-0042
Sinha, Aryan
e1951ae7-1c2b-4ad9-95ba-82cd09daef58
Mukhopadhyay, Tanmoy
2ae18ab0-7477-40ac-ae22-76face7be475
Sinha, Aryan
e1951ae7-1c2b-4ad9-95ba-82cd09daef58
Mukhopadhyay, Tanmoy
2ae18ab0-7477-40ac-ae22-76face7be475

Sinha, Aryan and Mukhopadhyay, Tanmoy (2022) Kirigami-inspired metamaterials for programming constitutive laws: mixed-mode multidirectional auxeticity and contact-induced stiffness modulation. iScience, 25 (12), [105656]. (doi:10.1016/j.isci.2022.105656).

Record type: Article

Abstract

Stress-strain constitutive relations and Poisson's ratios are fundamental properties of naturally occurring materials, based on which their mechanical applications can be designed. The lack of tailorability and restricted margin for such critical properties severely limit the bounds of achievable multi-functional engineering designs using conventional materials. Through analytical and numerical analyses, supported by elementary-level physical experiments, we have proposed a kirigami-inspired hybrid metamaterial with programmable deformation-dependent stiffness and mixed-mode multidirectional auxeticity. The metamaterial can transition from a phase of low stiffness to a contact induced phase that brings forth an extensive rise in stiffness. Uniform and graded configurations of multi-layer tessellated material are developed to modulate the constitutive law of the metastructure with augmented programmability in two- and three-dimensional spaces. The proposed metamaterial will lead to extreme lightweight functional designs for impact resistance, shape morphing, multidirectional deformation, vibration and wave propagation control, where the capabilities of intrinsic material can be most optimally exploited.

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More information

Accepted/In Press date: 18 November 2022
Published date: 8 December 2022
Additional Information: Funding Information: T.M. would like to acknowledge the Initiation grant received from IIT Kanpur during the period of this research work. Publisher Copyright: © 2022 The Author(s)
Keywords: Mechanical property, Mechanics of materials, Metamaterials

Identifiers

Local EPrints ID: 483929
URI: http://eprints.soton.ac.uk/id/eprint/483929
DOI: doi:10.1016/j.isci.2022.105656
ISSN: 2589-0042
PURE UUID: c9bae6cd-7288-4489-b078-0c06905dda65

Catalogue record

Date deposited: 07 Nov 2023 18:30
Last modified: 18 Mar 2024 04:10

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Contributors

Author: Aryan Sinha
Author: Tanmoy Mukhopadhyay

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