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Inflatable soft jumper inspired by shell snapping

Benjamin Gorissen, David Melancon, Nikolaos Vasios, Mehdi Torbati, Katia Bertoldi

2020Science Robotics253 citationsDOIOpen Access PDF

Abstract

Fluidic soft actuators are enlarging the robotics toolbox by providing flexible elements that can display highly complex deformations. Although these actuators are adaptable and inherently safe, their actuation speed is typically slow because the influx of fluid is limited by viscous forces. To overcome this limitation and realize soft actuators capable of rapid movements, we focused on spherical caps that exhibit isochoric snapping when pressurized under volume-controlled conditions. First, we noted that this snap-through instability leads to both a sudden release of energy and a fast cap displacement. Inspired by these findings, we investigated the response of actuators that comprise such spherical caps as building blocks and observed the same isochoric snapping mechanism upon inflation. Last, we demonstrated that this instability can be exploited to make these actuators jump even when inflated at a slow rate. Our study provides the foundation for the design of an emerging class of fluidic soft devices that can convert a slow input signal into a fast output deformation.

Topics & Concepts

InflatableShell (structure)Isochoric processElastomerMaterials scienceJumperEngineeringStructural engineeringPhysicsComposite materialElectrical engineeringThermodynamicsMicro and Nano RoboticsSoft Robotics and ApplicationsAdvanced Materials and Mechanics
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