Failure modes in electroactive polymer thin films with elastic electrodes

D. De Tommasi; G. Puglisi; G. Zurlo

doi:10.1088/0022-3727/47/6/065502

Failure modes in electroactive polymer thin films with elastic electrodes

D. De Tommasi, G. Puglisi, G. Zurlo

Research output: Contribution to a Journal (Peer & Non Peer) › Article › peer-review

16 Citations (Scopus)

Abstract

Based on an energy minimization approach, we analyse the elastic deformations of a thin electroactive polymer (EAP) film sandwiched by two elastic electrodes with non-negligible stiffness. We analytically show the existence of a critical value of the electrode voltage for which non-homogeneous solutions bifurcate from the homogeneous equilibrium state, leading to the pull-in phenomenon. This threshold strongly decreases the limit value proposed in the literature considering only homogeneous deformations. We explicitly discuss the influence of geometric and material parameters together with boundary conditions in the attainment of the different failure modes observed in EAP devices. In particular, we obtain the optimum values of these parameters leading to the maximum activation performances of the device.

Original language	English
Article number	065502
Journal	Journal of Physics D: Applied Physics
Volume	47
Issue number	6
DOIs	https://doi.org/10.1088/0022-3727/47/6/065502
Publication status	Published - 12 Feb 2014
Externally published	Yes

Keywords

bifurcation analysis
electroactive polymers
pull-in instability

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10.1088/0022-3727/47/6/065502

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title = "Failure modes in electroactive polymer thin films with elastic electrodes",

abstract = "Based on an energy minimization approach, we analyse the elastic deformations of a thin electroactive polymer (EAP) film sandwiched by two elastic electrodes with non-negligible stiffness. We analytically show the existence of a critical value of the electrode voltage for which non-homogeneous solutions bifurcate from the homogeneous equilibrium state, leading to the pull-in phenomenon. This threshold strongly decreases the limit value proposed in the literature considering only homogeneous deformations. We explicitly discuss the influence of geometric and material parameters together with boundary conditions in the attainment of the different failure modes observed in EAP devices. In particular, we obtain the optimum values of these parameters leading to the maximum activation performances of the device.",

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AU - Puglisi, G.

AU - Zurlo, G.

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Y1 - 2014/2/12

N2 - Based on an energy minimization approach, we analyse the elastic deformations of a thin electroactive polymer (EAP) film sandwiched by two elastic electrodes with non-negligible stiffness. We analytically show the existence of a critical value of the electrode voltage for which non-homogeneous solutions bifurcate from the homogeneous equilibrium state, leading to the pull-in phenomenon. This threshold strongly decreases the limit value proposed in the literature considering only homogeneous deformations. We explicitly discuss the influence of geometric and material parameters together with boundary conditions in the attainment of the different failure modes observed in EAP devices. In particular, we obtain the optimum values of these parameters leading to the maximum activation performances of the device.

AB - Based on an energy minimization approach, we analyse the elastic deformations of a thin electroactive polymer (EAP) film sandwiched by two elastic electrodes with non-negligible stiffness. We analytically show the existence of a critical value of the electrode voltage for which non-homogeneous solutions bifurcate from the homogeneous equilibrium state, leading to the pull-in phenomenon. This threshold strongly decreases the limit value proposed in the literature considering only homogeneous deformations. We explicitly discuss the influence of geometric and material parameters together with boundary conditions in the attainment of the different failure modes observed in EAP devices. In particular, we obtain the optimum values of these parameters leading to the maximum activation performances of the device.

KW - bifurcation analysis

KW - electroactive polymers

KW - pull-in instability

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DO - 10.1088/0022-3727/47/6/065502

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VL - 47

JO - Journal of Physics D: Applied Physics

JF - Journal of Physics D: Applied Physics

IS - 6

M1 - 065502

ER -

Failure modes in electroactive polymer thin films with elastic electrodes

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Keywords

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