Optimizing energy density in dielectric elastomer generators: a reliability-dependent metric
Optimizing energy density in dielectric elastomer generators: a reliability-dependent metric
Dielectric elastomer generators (DEGs) are soft transducers capable of converting mechanical energy into electrostatic energy. Increasing the mechanical stretch amplitude and the electric field imposed to the DEG leads to higher energy conversion at the cost of a reduced lifetime. Here, mechanical fatigue and electrical degradation were assessed on a silicone-based DEG, and the outcome was used to build an electro-mechanical reliability model. A novel metric, termed levelized energy density, has been introduced to carefully balance the conflicting objectives of high energy output and long-term reliability. Through a multi-dimensional anaylsis of this index, the optimal operating parameters (stretch amplitude and electric field) that maximize energy conversion can be derived. Energy densities reported in literature are generally obtained after pushing the DEG close to their intrinsic limits for a limited number of cycles. In our approach, more realistic values in the endurance domain are presented, which typically leads to a 9-fold decrease in energy density for a design life of 1 million cycles. This article not only addresses the challenge of optimizing DEG performance but also emphasizes the importance of considering realistic operational conditions to enhance reliability, ultimately contributing to the practical and sustainable deployment of these soft transducers in various applications.
dielectric elastomer generator, electrical ageing, electro-mechanical reliability, energy density, mechanical fatigue
Taine, Emmanuel
27a0e305-1b8d-4cb2-aa1c-726680149b2f
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Saeedi, Istebreq A.
7be9d5da-7f76-4b52-a56c-ecf15af31287
Morshuis, Peter H.F.
52ee8690-43df-4325-b9df-3b02a8deed87
17 October 2024
Taine, Emmanuel
27a0e305-1b8d-4cb2-aa1c-726680149b2f
Andritsch, Thomas
8681e640-e584-424e-a1f1-0d8b713de01c
Saeedi, Istebreq A.
7be9d5da-7f76-4b52-a56c-ecf15af31287
Morshuis, Peter H.F.
52ee8690-43df-4325-b9df-3b02a8deed87
Taine, Emmanuel, Andritsch, Thomas, Saeedi, Istebreq A. and Morshuis, Peter H.F.
(2024)
Optimizing energy density in dielectric elastomer generators: a reliability-dependent metric.
Smart Materials and Structures, 33 (11), [115030].
(doi:10.1088/1361-665X/ad840e).
Abstract
Dielectric elastomer generators (DEGs) are soft transducers capable of converting mechanical energy into electrostatic energy. Increasing the mechanical stretch amplitude and the electric field imposed to the DEG leads to higher energy conversion at the cost of a reduced lifetime. Here, mechanical fatigue and electrical degradation were assessed on a silicone-based DEG, and the outcome was used to build an electro-mechanical reliability model. A novel metric, termed levelized energy density, has been introduced to carefully balance the conflicting objectives of high energy output and long-term reliability. Through a multi-dimensional anaylsis of this index, the optimal operating parameters (stretch amplitude and electric field) that maximize energy conversion can be derived. Energy densities reported in literature are generally obtained after pushing the DEG close to their intrinsic limits for a limited number of cycles. In our approach, more realistic values in the endurance domain are presented, which typically leads to a 9-fold decrease in energy density for a design life of 1 million cycles. This article not only addresses the challenge of optimizing DEG performance but also emphasizes the importance of considering realistic operational conditions to enhance reliability, ultimately contributing to the practical and sustainable deployment of these soft transducers in various applications.
Text
Taine_2024_Smart_Mater._Struct._33_115030
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Accepted/In Press date: 7 October 2024
Published date: 17 October 2024
Keywords:
dielectric elastomer generator, electrical ageing, electro-mechanical reliability, energy density, mechanical fatigue
Identifiers
Local EPrints ID: 495813
URI: http://eprints.soton.ac.uk/id/eprint/495813
ISSN: 0964-1726
PURE UUID: e2ed31a6-67fa-47c8-8bea-e37b5fc63bcc
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Date deposited: 25 Nov 2024 17:30
Last modified: 26 Nov 2024 02:46
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Contributors
Author:
Emmanuel Taine
Author:
Thomas Andritsch
Author:
Istebreq A. Saeedi
Author:
Peter H.F. Morshuis
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