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Analytical Modeling and Design of Generalized Pneu-Net Soft Actuators with Three-Dimensional Deformations

Guoying Gu, Dong Wang, Lisen Ge, Xiangyang Zhu

2020Soft Robotics92 citationsDOI

Abstract

Pneu-net soft actuators, consisting of pneumatic networks of small chambers embedded in elastomeric structures, are particularly promising candidates in the society of soft robotics. However, there are few studies on the analytical modeling of pneu-net soft actuators, especially in the three-dimensional space. In this article, based on the minimum potential energy method and the continuum rod theory, we propose an analytical model and corresponding design approach for a class of generalized pneu-net soft actuators (gPNSAs) with both bending and twisting deformations by combining the geometric complexity and material elasticity. We experimentally verify our modeling approach and finally investigate the effects of geometric parameters, material properties, and external force on the deformations of gPNSAs, which can be used as a tool for the design of gPNSAs. We further demonstrate that our developed model can predict the deformations of gPNSAs made of multiple materials.

Topics & Concepts

ActuatorSoft roboticsComputer scienceElasticity (physics)ElastomerBendingMechanical engineeringStructural engineeringArtificial intelligenceMaterials scienceEngineeringComposite materialSoft Robotics and ApplicationsMicro and Nano RoboticsDielectric materials and actuators
Analytical Modeling and Design of Generalized Pneu-Net Soft Actuators with Three-Dimensional Deformations | Litcius