Granular metamaterials with dynamic bond reconfiguration
Creators
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1.
Nanyang Technological University
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2.
California Institute of Technology
Abstract
Biological materials dynamically reconfigure their underlying structures in response to stimuli, achieving adaptability and multifunctionality. Conversely, mechanical metamaterials have fixed interunit connections that restrict adaptability and reconfiguration. This study introduces granular metamaterials composed of discrete bimaterial structured particles that transition between assembled and unassembled states through mechanical compression and thermal stimuli. These materials enable dynamic bond reconfiguration, allowing reversible bond breaking and formation, similar to natural systems. Leveraging their discrete nature, these materials can adaptively reconfigure their shape and respond dynamically to varying conditions. Our investigations reveal that these granular metamaterials can substantially alter their mechanical properties, like compression, shearing, and bending, offering tunable mechanical characteristics across different states. Furthermore, they exhibit collective behaviors like directional movement, object capture, transportation, and gap crossing, showcasing their potential for reprogrammable functionalities. This work highlights the dynamic reconfigurability and robust adaptability of granular metamaterials, expanding their potential in responsive architecture and autonomous robotics.
Copyright and License
© 2024 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works. Distributed under a Creative Commons Attribution NonCommercial License 4.0 (CC BY-NC).
Funding
This research was supported by the Singapore MOE Tier-2 award MOE-T2EP50123-0015, A*STAR Singapore RIE2025 MTC IRG award (M21K2c0118), and the NAP award (020482) from Nanyang Technological University.
Contributions
Conceptualization: Z.M. and Y.W. Methodology: Z.M., H.Y., and Y.W. Investigation: Z.M. and Y.W. Visualization: Z.M., H.Y., and Y.W. Supervision: Y.W. Writing—original draft: Z.M., H.Y., and Y.W. Writing—review and editing: Z.M., H.Y., and Y.W.
Data Availability
All data needed to evaluate the conclusions in the paper are present in the paper and/or the Supplementary Materials.
Supplemental Material
The PDF file includes:
Supplementary Materials and Methods
Supplementary Text
Figs. S1 to S28
Legends for movies S1 to S9
Other Supplementary Material for this manuscript includes the following:
Movies S1 to S9
Files
sciadv.adq7933.pdf
Files
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Additional details
Funding
- Ministry of Education
- MOE-T2EP50123-0015
- Agency for Science, Technology and Research
- RIE2025 MTC IRG M21K2c0118
- Nanyang Technological University
- NAP 020482
Dates
- Accepted
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2024-10-30Accepted