Programmable Mechanical Metamaterials
Leiden University · Huygens Institute for History and Culture of the Netherlands
Abstract
We create mechanical metamaterials whose response to uniaxial compression can be programmed by lateral confinement, allowing monotonic, nonmonotonic, and hysteretic behavior. These functionalities arise from a broken rotational symmetry which causes highly nonlinear coupling of deformations along the two primary axes of these metamaterials. We introduce a soft mechanism model which captures the programmable mechanics, and outline a general design strategy for confined mechanical metamaterials. Finally, we show how inhomogeneous confinement can be explored to create multistability and giant hysteresis.
Citation impact
- FWCI
- 39.82
- Percentile
- 100%
- References
- 28
Authors
3- BFBastiaan FlorijnCorresponding
Leiden University, Huygens Institute for History and Culture of the Netherlands
- CCCorentin Coulais
Huygens Institute for History and Culture of the Netherlands, Leiden University
- MVMartin van Hecke
Leiden University, Huygens Institute for History and Culture of the Netherlands
Topics & keywords
- Multistability
- Metamaterial
- Hysteresis
- Coupling (piping)
- Nonlinear system
- Physics
- Compression (physics)
- Materials science