论文信息 - Circular pre-strained dielectric elastomer actuator: modeling, simulation and experimental verification

Circular pre-strained dielectric elastomer actuator: modeling, simulation and experimental verification

Reliable models are required for the design and optimization of dielectric elastomer actuators. Thereby knowledge of the constitutive behavior of the elastomer is of crucial importance. In this work a pre-strained circular actuator made of a dielectric elastomer is investigated: constitutive models based on uniaxial data are verified by comparing calculation results with experimental observations. An analytical model is derived for the instantaneous response to an activation voltage in the pre-strained circular actuator and a finite element (FE) model is used to simulate the time dependent behavior. Hyperelastic models are used and three strain energy formulations (Yeoh, Ogden and Mooney-Rivlin) are compared in their predictive capabilities. The results of the calculations with the three strain energy forms differ significantly, although all forms were successfully fitted to the same uniaxial data set. Predictions of the actuator behavior based on the Yeoh form agree to a great extent with measurements of the response at different pre-strain levels and activation voltages.

Gabor Kovacs | Edoardo Mazza | Michael Wissler

[1] Y. Cohen. Electroactive Polymer (EAP) Actuators as Artificial Muscles - Reality , 2001 .

[2] Silvain Michel,et al. Dielectric Elastomer Actuators for A Portable Force Feedback Device , 2004 .

[3] R. Ogden. Large Deformation Isotropic Elasticity—On the Correlation of Theory and Experiment for Incompressible Rubberlike Solids , 1973 .

[4] Ron Pelrine,et al. High-Strain Actuator Materials Based on Dielectric Elastomers , 2000 .

[5] M. Mooney. A Theory of Large Elastic Deformation , 1940 .

[6] Guggi Kofod,et al. Dielectric elastomer actuators , 2001 .

[7] O. Yeoh. Some Forms of the Strain Energy Function for Rubber , 1993 .

[8] Edoardo Mazza,et al. Modeling and simulation of dielectric elastomer actuators , 2005 .

[9] M. Wissler,et al. Modeling dielectric elastomer actuators , 2007 .

[10] O. H. Yeoh,et al. Characterization of Elastic Properties of Carbon-Black-Filled Rubber Vulcanizates , 1990 .

[11] R. Pelrine,et al. Electrostriction of polymer dielectrics with compliant electrodes as a means of actuation , 1998 .

[12] S. Cowin,et al. Biomechanics: Mechanical Properties of Living Tissues, 2nd ed. , 1994 .

[13] Richard Heydt,et al. Applications of dielectric elastomer actuators , 2001, SPIE Smart Structures and Materials + Nondestructive Evaluation and Health Monitoring.

[14] Q. Pei,et al. High-speed electrically actuated elastomers with strain greater than 100% , 2000, Science.