Variable stiffness and damping components for semi-active vibration control and inflatable rigidization
Qinyu Wang (Tsinghua University)
Gennaro Senatore (University of Stuttgart)
Kaspar Jansen (TU Delft - Emerging Materials)
Arjan Habraken (Eindhoven University of Technology)
Patrick Teuffel (Eindhoven University of Technology)
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Abstract
The paper explores the potential applications of adaptive components based on shape memory polymer (SMP) composites in vibration control of plate/shell structures and rigidization of inflatable structures. These components achieve stiffness and damping variation by thermally actuating SMP between its glassy and rubbery states. In CASE A, steel-SMP sandwich plates of a truss bridge are actuated to glass transition temperature (Tg), where material damping reaches the peak to mitigate dynamic responses. CASE B proposes a simple and reversible rigidization method for inflatable structures, creating high compaction ratio and design flexibility. Converting the SMP layer between its glassy and rubbery states, inflatable structures achieve multiple functions during transportation, construction, and service life. SMP-based adaptive components enhance structural performance and mitigate dynamic effects in demanding environments for various structures.