DC Breakdown Investigation on Polyurethane Elastomeric Films with and without Deposited Electrodes
DC Breakdown Investigation on Polyurethane Elastomeric Films with and without Deposited Electrodes
Electroactive polymers (EAP) have recently drawn considerable attention, because of their potential use in wave energy converters, muscle-like actuators and as a material for applications in robotics and biomimetics. The widespread interest in electroactive polymers is primarily attributed to the electrostrictive effect that manifests in the stretching and compression of the soft polymer, when voltage is applied to the electrodes. The degree of deformation is proportional to the square of the applied electric field, therefore it is important to study the effect of high voltages on EAP. Our work presents a study on electrical breakdown characteristics of polyurethane (PU) - one of the most promising representatives of EAP, because of its high dielectric constant, combined with a high breakdown strength and low mechanical creep. Ramp and step-up breakdown tests were performed on PU films with and without compliant electrodes, in order to determine the breakdown strength of the samples. The investigation showed that the electrical behaviour of a PU film can be affected by the type of electrodes that are attached to the surface of the polymer. Gold sputtered electrodes have a good adhesion, but they do not stretch along with the PU film under voltage excitation. This results in cracks, reducing the performance of the electrode surface. PU samples with special compliant electrodes have lower breakdown voltages, but these electrodes can change their form along with the polymeric film. The results of plain PU films without applying compliant electrodes on the surface are presented as a reference.
978-1-4673-4459-3
37-40
Kochetov, R
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Schlager Ospino, A H
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Andritsch, T
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Morshuis, P H F
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Smitt, J J
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Feller, T
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Wagner, J
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30 June 2013
Kochetov, R
52fb5ba9-ab83-413a-a717-178a044d256a
Schlager Ospino, A H
ce8255b2-c9c4-4f7f-b447-6ed158da929e
Andritsch, T
8681e640-e584-424e-a1f1-0d8b713de01c
Morshuis, P H F
b0e3efcf-b3dc-4672-ac0c-6d777bc9b557
Smitt, J J
ec7235d8-8f02-45f5-8fda-0a5f6a95f75a
Feller, T
8031e092-e122-4b03-ab6f-c409db88e8c3
Wagner, J
c59b054a-37c2-41be-9f67-f9874e33dc82
Kochetov, R, Schlager Ospino, A H, Andritsch, T, Morshuis, P H F, Smitt, J J, Feller, T and Wagner, J
(2013)
DC Breakdown Investigation on Polyurethane Elastomeric Films with and without Deposited Electrodes.
IEEE 2013 International Conference on Solid Dielectrics (ICSD), , Bologna, Italy.
30 Jun - 04 Jul 2013.
.
Record type:
Conference or Workshop Item
(Paper)
Abstract
Electroactive polymers (EAP) have recently drawn considerable attention, because of their potential use in wave energy converters, muscle-like actuators and as a material for applications in robotics and biomimetics. The widespread interest in electroactive polymers is primarily attributed to the electrostrictive effect that manifests in the stretching and compression of the soft polymer, when voltage is applied to the electrodes. The degree of deformation is proportional to the square of the applied electric field, therefore it is important to study the effect of high voltages on EAP. Our work presents a study on electrical breakdown characteristics of polyurethane (PU) - one of the most promising representatives of EAP, because of its high dielectric constant, combined with a high breakdown strength and low mechanical creep. Ramp and step-up breakdown tests were performed on PU films with and without compliant electrodes, in order to determine the breakdown strength of the samples. The investigation showed that the electrical behaviour of a PU film can be affected by the type of electrodes that are attached to the surface of the polymer. Gold sputtered electrodes have a good adhesion, but they do not stretch along with the PU film under voltage excitation. This results in cracks, reducing the performance of the electrode surface. PU samples with special compliant electrodes have lower breakdown voltages, but these electrodes can change their form along with the polymeric film. The results of plain PU films without applying compliant electrodes on the surface are presented as a reference.
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Published date: 30 June 2013
Venue - Dates:
IEEE 2013 International Conference on Solid Dielectrics (ICSD), , Bologna, Italy, 2013-06-30 - 2013-07-04
Organisations:
EEE
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Local EPrints ID: 354181
URI: http://eprints.soton.ac.uk/id/eprint/354181
ISBN: 978-1-4673-4459-3
PURE UUID: 79961b3c-cebd-40de-9710-5a7990e4f52c
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Date deposited: 03 Jul 2013 09:53
Last modified: 15 Mar 2024 03:48
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Contributors
Author:
R Kochetov
Author:
A H Schlager Ospino
Author:
T Andritsch
Author:
P H F Morshuis
Author:
J J Smitt
Author:
T Feller
Author:
J Wagner
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