Litcius/Paper detail

Cactus-inspired design principles for soft robotics based on 3D printed hydrogel-elastomer systems

Anil Bastola, Nadia Rodriguez, Marc Behl, Patrícia Soffiatti, Nick Rowe, Andreas Lendlein

2021Materials & Design54 citationsDOIOpen Access PDF

Abstract

Plants have evolved many capabilities to anchor, position their stems and leaves favourably, and adapt themselves to different environmental conditions by virtue of growing. Selenicereus setaceus is a cactus and is an impressive example of a climbing plant found mostly in the Atlantic forest formations of southern Brazil. This cactus displays striking changes in stem geometry along different stages of growth: older parts are circular while the younger parts are star-like in shape. Such a transformation in shape optimizes its flexural rigidity and allows the cactus to search in three-dimensionally complex environments. Its organisation offers novel schemes for the design of plant-inspired soft robotic systems. In this paper, we have created multi-material systems for soft robotics that display controlled movements as well as mimicking the cactus stem geometries from star-like to circular. The unique star-shaped geometry is 3D printed using a soft elastomer and hydrogel is used as an actuating component. Through anisotropic swelling, the hydrogel-elastomer system adjusts its configuration and shows a controlled movement. Furthermore, the isotropic swelling of the hydrogel of the artificial cactus multi-material system result in the change in shape from star-like to circular as the cactus does naturally in the tropical forest.

Topics & Concepts

CactusSoft roboticsFlexural rigidityElastomerMaterials scienceIsotropyRoboticsRigidity (electromagnetism)Artificial intelligenceComposite materialMechanical engineeringComputer scienceRobotEngineeringPhysicsBiologyBotanyQuantum mechanicsAdvanced Materials and MechanicsModular Robots and Swarm IntelligenceMicro and Nano Robotics