Please use this identifier to cite or link to this item: https://www.um.edu.mt/library/oar/handle/123456789/145979
Title: Micro-scale graded mechanical metamaterials exhibiting versatile Poisson’s ratio
Authors: Dudek, Krzysztof K.
Mizzi, Luke
Iglesias Martıńez, Julio Andrés
Spaggiari, Andrea
Ulliac, Gwenn
Gatt, Ruben
Grima, Joseph N.
Laude, Vincent
Kadic, Muamer
Keywords: Composite materials -- Mechanical properties
Mechanical engineering
Composite materials -- Mechanical properties
Auxetics (Materials) -- Mechanical properties
Poisson processes
Issue Date: 2023
Publisher: Elsevier Ltd.
Citation: Dudek, K. K., Mizzi, L., Iglesias Martıńez, J. A., Spaggiari, A., Ulliac, G., Gatt, R.,...Kadic, M. (2023). Micro-scale graded mechanical metamaterials exhibiting versatile poisson’s ratio. Composite Structures, 319, 117151.
Abstract: The ability to control Poisson’s ratio of functional materials has been one of the main objectives of researchers attempting to develop structures efficient from the perspective of protective, biomedical and soundproofing devices. This task becomes even more challenging at small scales, such as the microscale, where the possibility to control mechanical properties of functional materials is very significant, like in the case of flexible electronics. In this work, we propose novel microscopic 2D and 3D functionally-graded mechanical metamaterials capable of exhibiting a broad range of Poisson’s ratio depending on their composition. More specifically, we show that upon adjusting the number of structural elements corresponding to one type of the substructure at the expense of another, it is possible to change the resultant Poisson’s ratio of the entire system from highly positive to highly negative values as well as to achieve arbitrary intermediate values. Finally, in addition to static properties, we also analyze the dynamic properties of these structures. Namely, we show how the variation in the composition of the considered mechanical metamaterials affects the velocity of a wave propagating through the system. This, in turn, could be essential in the case of applications utilizing localized wave attenuation or sensors.
URI: https://www.um.edu.mt/library/oar/handle/123456789/145979
Appears in Collections:Scholarly Works - FacSciMet

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