Home /Research /Soft Robotic Manipulation and Locomotion with a 3D Printed Electroactive Hydrogel
MANIPULATION

Soft Robotic Manipulation and Locomotion with a 3D Printed Electroactive Hydrogel

Daehoon Han, Cindy J. Farino, Chen Yang, Tracy E. Scott, Daniel P. Browe, Wonjoon Choi, Joseph W. Freeman, Howon Lee

Year
2018
Citations
357

Abstract

Electroactive hydrogels (EAH) that exhibit large deformation in response to an electric field have received great attention as a potential actuating material for soft robots and artificial muscle. However, their application has been limited due to the use of traditional two-dimensional (2D) fabrication methods. Here we present soft robotic manipulation and locomotion with 3D printed EAH microstructures. Through 3D design and precise dimensional control enabled by a digital light processing (DLP) based micro 3D printing technique, complex 3D actuations of EAH are achieved. We demonstrate soft robotic actuations including gripping and transporting an object and a bidirectional locomotion.

Keywords

Soft roboticsMaterials science3D printingSelf-healing hydrogelsArtificial muscleDigital Light Processing3d printedRobotSoft materials3d printer

Related papers

Browse all MANIPULATION papers