Title :
Wound Roll Dielectric Elastomer Actuators: Fabrication, Analysis, and Experiments
Author :
Rajamani, Arun ; Grissom, Michael D. ; Rahn, Christopher D. ; Zhang, Qiming
Author_Institution :
Pennsylvania State Univ., University Park
Abstract :
Wound roll electroactive polymer actuators fabricated with dielectric elastomer (DE) materials provide high bandwidth actuation for robots, minipumps, loudspeakers, valves, and prosthetic devices. In this paper, we develop a DE wound roll actuator fabrication process that produces high strain (12%), reliable (3480 cycles at maximum strain), and stiff (144 N/m) actuators. An axisymmetric Unite element model with electrostatic and radial bulk modulus nonlinearity predicts actuator displacement and stress. The maximum compressive radial stress occurs at the center of the innermost active layer. This layer also has the thinnest material, indicating the most likely failure point. The nonlinear model predicts actuator displacement in response to applied voltage and load, matching experiments to within 1 mm.
Keywords :
control nonlinearities; dielectric devices; elastomers; electric actuators; stress analysis; actuator displacement; axisymmetric Unite element model; electrostatic nonlinearity; high bandwidth actuation; radial bulk modulus nonlinearity; stress analysis; wound roll actuator fabrication; wound roll dielectric elastomer actuator; wound roll electroactive polymer actuator; Actuators; Bandwidth; Capacitive sensors; Compressive stress; Dielectric devices; Dielectric materials; Fabrication; Polymers; Predictive models; Wounds; Electroactive polymers; finite elements; stress analysis;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2008.915825
