Affiliation:
1. Laboratory of Composite Materials and Adaptive Structures, Department of Mechanical and Process Engineering ETH Zürich Leonhardstrasse 21 CH‐8092 Zürich Switzerland
2. Engineering and Applied Science California Institute of Technology 1200 E. California Blvd. Pasadena CA 91125 USA
Abstract
AbstractMulti‐stable elements are commonly employed to design reconfigurable and adaptive structures, because they enable large and reversible shape changes in response to changing loads, while simultaneously allowing self‐locking capabilities. However, existing multi‐stable structures have properties that depend on their initial design and cannot be tailored post‐fabrication. Here, a novel design approach is presented that combines multi‐stable structures with two‐way shape memory polymers. By leveraging both the one‐way and two‐way shape memory effect under bi‐axial strain conditions, the structures can re‐program their 3D shape, bear loads, and self‐actuate. Results demonstrate that the structures' shape and stiffness can be tuned post‐fabrication at the user's need and the multi‐stability can be suppressed or activated on command. The control of multi‐stability prevents undesired snapping of the structures and enables higher load‐bearing capability, compared to conventional multi‐stable systems. The proposed approach offers the possibility to augment the functionality of existing multi‐stable concepts, showing potential for the realization of highly adaptable mechanical structures that can reversibly switch between being mono and multi‐stable and that can undergo shape changes in response to a change in temperature.
Funder
Schweizerischer Nationalfonds zur Förderung der Wissenschaftlichen Forschung
U.S. Department of Defense
Cited by
1 articles.
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