Deformation Performance of Pt-IPMC Based on Experiment and Simulation Research

“…These include light weight, small size, strong electromechanical conversion capability, high deformability, simple actuation structure, low voltage operation, and environmentally friendly features. 1 The material was first discovered in 1992 by three research groups from Japan and the United States. [2][3][4] Unlike the driving methods used with shape memory alloys (SMA), 5,6 an IPMC can exhibit faster response speeds and better deformation capabilities.…”

Current research status of ionic polymer–metal composites in applications of low-voltage actuators

“…These include light weight, small size, strong electromechanical conversion capability, high deformability, simple actuation structure, low voltage operation, and environmentally friendly features. 1 The material was first discovered in 1992 by three research groups from Japan and the United States. [2][3][4] Unlike the driving methods used with shape memory alloys (SMA), 5,6 an IPMC can exhibit faster response speeds and better deformation capabilities.…”

Current research status of ionic polymer–metal composites in applications of low-voltage actuators

Sulphonated-graphene oxide nanocomposite membranes with PVA-ZnO nanostructures and mechanized agitation-enhanced pt coating for soft robotics bending actuator