Standards for dielectric elastomer transducers

Federico Carpi; Iain Anderson; Siegfried Bauer; Gabriele Frediani; Giuseppe Gallone; Massimiliano Gei; Christian Graaf; Claire Jean-Mistral; William Kaal; Guggi Kofod; Matthias Kollosche; Roy Kornbluh; Benny Lassen; Marc Matysek; Silvain Michel; Stephan Nowak; Benjamin O'Brien; Qibing Pei; Ron Pelrine; Björn Rechenbach; Samuel Rosset; Herbert Shea

doi:10.1088/0964-1726/24/10/105025

Standards for dielectric elastomer transducers

Federico Carpi, Iain Anderson, Siegfried Bauer, Gabriele Frediani, Giuseppe Gallone, Massimiliano Gei, Christian Graaf, Claire Jean-Mistral, William Kaal, Guggi Kofod, Matthias Kollosche, Roy Kornbluh, Benny Lassen, Marc Matysek, Silvain Michel, Stephan Nowak, Benjamin O'Brien, Qibing Pei, Ron Pelrine, Björn RechenbachSamuel Rosset, Herbert Shea

Department of Soft Matter Physics

Research output: Contribution to journal › Article › peer-review

Abstract

Dielectric elastomer transducers consist of thin electrically insulating elastomeric membranes coated on both sides with compliant electrodes. They are a promising electromechanically active polymer technology that may be used for actuators, strain sensors, and electrical generators that harvest mechanical energy. The rapid development of this field calls for the first standards, collecting guidelines on how to assess and compare the performance of materials and devices. This paper addresses this need, presenting standardized methods for material characterisation, device testing and performance measurement. These proposed standards are intended to have a general scope and a broad applicability to different material types and device configurations. Nevertheless, they also intentionally exclude some aspects where knowledge and/or consensus in the literature were deemed to be insufficient. This is a sign of a young and vital field, whose research development is expected to benefit from this effort towards standardisation.

Original language	English
Article number	105025
Pages (from-to)	105025
Number of pages	25
Journal	Smart Materials and Structures
Volume	24
DOIs	https://doi.org/10.1088/0964-1726/24/10/105025
Publication status	Published - 2015

Fields of science

103 Physics, Astronomy

JKU Focus areas

Nano-, Bio- and Polymer-Systems: From Structure to Function
Engineering and Natural Sciences (in general)

Access to Document

10.1088/0964-1726/24/10/105025

Cite this

Carpi, F., Anderson, I., Bauer, S., Frediani, G., Gallone, G., Gei, M., Graaf, C., Jean-Mistral, C., Kaal, W., Kofod, G., Kollosche, M., Kornbluh, R., Lassen, B., Matysek, M., Michel, S., Nowak, S., O'Brien, B., Pei, Q., Pelrine, R., ... Shea, H. (2015). Standards for dielectric elastomer transducers. Smart Materials and Structures, 24, 105025. Article 105025. https://doi.org/10.1088/0964-1726/24/10/105025

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title = "Standards for dielectric elastomer transducers",

abstract = "Dielectric elastomer transducers consist of thin electrically insulating elastomeric membranes coated on both sides with compliant electrodes. They are a promising electromechanically active polymer technology that may be used for actuators, strain sensors, and electrical generators that harvest mechanical energy. The rapid development of this field calls for the first standards, collecting guidelines on how to assess and compare the performance of materials and devices. This paper addresses this need, presenting standardized methods for material characterisation, device testing and performance measurement. These proposed standards are intended to have a general scope and a broad applicability to different material types and device configurations. Nevertheless, they also intentionally exclude some aspects where knowledge and/or consensus in the literature were deemed to be insufficient. This is a sign of a young and vital field, whose research development is expected to benefit from this effort towards standardisation.",

author = "Federico Carpi and Iain Anderson and Siegfried Bauer and Gabriele Frediani and Giuseppe Gallone and Massimiliano Gei and Christian Graaf and Claire Jean-Mistral and William Kaal and Guggi Kofod and Matthias Kollosche and Roy Kornbluh and Benny Lassen and Marc Matysek and Silvain Michel and Stephan Nowak and Benjamin O'Brien and Qibing Pei and Ron Pelrine and Bj{\"o}rn Rechenbach and Samuel Rosset and Herbert Shea",

year = "2015",

doi = "10.1088/0964-1726/24/10/105025",

language = "English",

volume = "24",

pages = "105025",

journal = "Smart Materials and Structures",

issn = "0964-1726",

publisher = "IOP Publishing Ltd",

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Carpi, F, Anderson, I, Bauer, S, Frediani, G, Gallone, G, Gei, M, Graaf, C, Jean-Mistral, C, Kaal, W, Kofod, G, Kollosche, M, Kornbluh, R, Lassen, B, Matysek, M, Michel, S, Nowak, S, O'Brien, B, Pei, Q, Pelrine, R, Rechenbach, B, Rosset, S & Shea, H 2015, 'Standards for dielectric elastomer transducers', Smart Materials and Structures, vol. 24, 105025, pp. 105025. https://doi.org/10.1088/0964-1726/24/10/105025

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T1 - Standards for dielectric elastomer transducers

AU - Carpi, Federico

AU - Anderson, Iain

AU - Bauer, Siegfried

AU - Frediani, Gabriele

AU - Gallone, Giuseppe

AU - Gei, Massimiliano

AU - Graaf, Christian

AU - Jean-Mistral, Claire

AU - Kaal, William

AU - Kofod, Guggi

AU - Kollosche, Matthias

AU - Kornbluh, Roy

AU - Lassen, Benny

AU - Matysek, Marc

AU - Michel, Silvain

AU - Nowak, Stephan

AU - O'Brien, Benjamin

AU - Pei, Qibing

AU - Pelrine, Ron

AU - Rechenbach, Björn

AU - Rosset, Samuel

AU - Shea, Herbert

PY - 2015

Y1 - 2015

N2 - Dielectric elastomer transducers consist of thin electrically insulating elastomeric membranes coated on both sides with compliant electrodes. They are a promising electromechanically active polymer technology that may be used for actuators, strain sensors, and electrical generators that harvest mechanical energy. The rapid development of this field calls for the first standards, collecting guidelines on how to assess and compare the performance of materials and devices. This paper addresses this need, presenting standardized methods for material characterisation, device testing and performance measurement. These proposed standards are intended to have a general scope and a broad applicability to different material types and device configurations. Nevertheless, they also intentionally exclude some aspects where knowledge and/or consensus in the literature were deemed to be insufficient. This is a sign of a young and vital field, whose research development is expected to benefit from this effort towards standardisation.

AB - Dielectric elastomer transducers consist of thin electrically insulating elastomeric membranes coated on both sides with compliant electrodes. They are a promising electromechanically active polymer technology that may be used for actuators, strain sensors, and electrical generators that harvest mechanical energy. The rapid development of this field calls for the first standards, collecting guidelines on how to assess and compare the performance of materials and devices. This paper addresses this need, presenting standardized methods for material characterisation, device testing and performance measurement. These proposed standards are intended to have a general scope and a broad applicability to different material types and device configurations. Nevertheless, they also intentionally exclude some aspects where knowledge and/or consensus in the literature were deemed to be insufficient. This is a sign of a young and vital field, whose research development is expected to benefit from this effort towards standardisation.

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DO - 10.1088/0964-1726/24/10/105025

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