[en] Mechanical metamaterials achieve unprecedented mechanical properties through their periodically interconnected unit cell structure. However, their geometrical design and resulting mechanical properties are typically fixed during fabrication. Despite efforts to implement covalent adaptable networks (CANs) into metamaterials for permanent shape reconfigurability, emphasis is given to global rather than local shape reconfiguration. Furthermore, the change of effective material properties like Poisson's ratio remains to be explored. In this work, a non-isocyanate polyurethane elastomeric CAN, which can be thermally reconfigured, is introduced into a metamaterial architecture. Structural reconfiguration allows for the local and global reprogramming of the Poisson's ratio with change of unit cell angle from 60° to 90° for the auxetic and 120° to 90° for the honeycomb metamaterial. The respective Poisson's ratio changes from -1.4 up to -0.4 for the auxetic and from +0.7 to +0.2 for the honeycomb metamaterial. Carbon nanotubes are deposited on the metamaterials to enable global and spatial electrothermal heating for on-demand reshaping with a heterogeneous Poisson's ratio ranging from -2 to ≈0 for a single auxetic or +0.6 to ≈0 for a single honeycomb metamaterial. Finite element simulations reveal how permanent geometrical reconfiguration results from locally and globally relaxed heated patterns.
Research Center/Unit :
CESAM - Complex and Entangled Systems from Atoms to Materials - ULiège CERM - Center for Education and Research on Macromolecules - ULiège
Disciplines :
Materials science & engineering Chemistry
Author, co-author :
Abbasoglu, Tansu; University of the Basque Country - POLYMAT - Donostia/SanSebastian - Spain
Skarsetz, Oliver; Johannes Gutenberg University of Mainz - Department of Chemistry - Life-Like Materials and Systems - Germany
Fanlo, Paula; University of the Basque Country - POLYMAT - Donostia/SanSebastian - Spain
Grignard, Bruno ; University of Liège [ULiège] - Complex and Entangled Systems from Atoms to Materials [CESAM] Research Unit - Center for Education and Research on Macromolecules [CERM] - Belgium ; University of Liège [ULiège] - FRITCO2T Platform - Belgium
Detrembleur, Christophe ; University of Liège [ULiège] - Complex and Entangled Systems from Atoms to Materials [CESAM] Research Unit - Center for Education and Research on Macromolecules [CERM] - Belgium
Walther, Andreas; Johannes Gutenberg University of Mainz - Department of Chemistry - Life-Like Materials and Systems - Germany
Sardon, Haritz ; University of the Basque Country - POLYMAT - Donostia/SanSebastian - Spain
Language :
English
Title :
Spatio‐selective reconfiguration of mechanical metamaterials through the use of dynamic covalent chemistries
European Union. Marie Skłodowska-Curie Actions F.R.S.-FNRS - Fund for Scientific Research
Funding text :
This project received funding from the European Union's Horizon 2020 research and innovation program under the Marie Sk\u0142odowska\u2010Curie Grant agreement No 860911 and Spanish Ministry of Science, Innovation and Universities (MCIU), State Research Agency (AEI) (PID2022\u2010138199NB\u2010100AEI/10.13039/501100011033). The authors would like to acknowledge the assistance of ChatGPT (GPT\u20104) for English language editing and proofreading of this manuscript. C.D. is FNRS Research Director and thanks FNRS for financial support.
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