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Mechanical response of multistable tensegrity-like lattice chains

Claudio Intrigila, Andrea Micheletti, Nicola A. Nodargi, Paolo Bisegna

2023Additive manufacturing19 citationsDOIOpen Access PDF

Abstract

Recent developments in the quality and accuracy of additive manufacturing have drawn particular attention to metamaterials characterized by a multistable response to achieve exceptional mechanical properties. This work focuses on the design, fabrication, testing, and simulation of tensegrity-like lattice chains accomplishing a multistable behaviour. The chains are composed of chiral tensegrity-like units featuring a highly nonlinear bistable response with compression-twisting coupling. Different chains are designed by exploiting the chirality of the units and realised by the inverted stereolithography technique. Their mechanical response is experimentally characterized, demonstrating the attainment of the desired multistable behaviour. A predictive semi-analytical model is derived to reconstruct the multistable energy landscape and force-vs-displacement curve of the whole chain. The presented chains may constitute a flexible platform for programmable materials, potentially extending to modular chains also based on other types of tensegrity-like units.

Topics & Concepts

TensegrityBistabilityMaterials scienceModular designLattice (music)MetamaterialFabricationNonlinear systemDisplacement (psychology)Structural engineeringComputer scienceOptoelectronicsEngineeringAcousticsPhysicsQuantum mechanicsPathologyPsychologyMedicinePsychotherapistOperating systemAlternative medicineStructural Analysis and OptimizationAdvanced Materials and MechanicsModular Robots and Swarm Intelligence