A tubular dielectric elastomer actuator: Fabrication, characterization and active vibration isolation

This contribution reviews the fabrication, characterization and active vibration isolation performance of a core-free rolled tubular dielectric elastomer (DE) actuator, which has been designed and developed by Danfoss PolyPower A/S. PolyPower DE material, PolyPower TM, is produced in thin sheets of...

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Published in	Mechanical systems and signal processing Vol. 25; no. 8; pp. 2879 - 2891
Main Authors	Sarban, R., Jones, R.W., Mace, B.R., Rustighi, E.
Format	Journal Article
Language	English
Published	Kidlington Elsevier Ltd 01.11.2011 Elsevier
Subjects	Active vibration isolation Actuators Applied sciences Dielectric elastomer Dielectrics Disturbances Dynamic characteristics Elastomers Exact sciences and technology Feedforward control Frequency response Fundamental areas of phenomenology (including applications) General equipment and techniques Harmonics Industrial polymers. Preparations Instruments, apparatus, components and techniques common to several branches of physics and astronomy Measurement and testing methods Noise levels Physics Polymer industry, paints, wood Solid mechanics Structural and continuum mechanics Technology of polymers Transducers Vibration Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...) Feedforward control Dielectric elastomer Frequency response Active vibration isolation Electromechanical control Actuators Vibration test Adaptive control Electric motors Electrodes Vibrations Corrugated surface Active system Linear machines Modelling Vibration source Production process Dynamic characteristic Electroactive polymer Dielectric materials Elastomers Rolling Experimental study Equilibrium equation Cylindrical shape Vibration isolation Soil mechanics Batch process Thin sheet
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ISSN	0888-3270 1096-1216
DOI	10.1016/j.ymssp.2011.06.004

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Abstract	This contribution reviews the fabrication, characterization and active vibration isolation performance of a core-free rolled tubular dielectric elastomer (DE) actuator, which has been designed and developed by Danfoss PolyPower A/S. PolyPower DE material, PolyPower TM, is produced in thin sheets of 80 μm thickness with corrugated metallic electrodes on both sides. Tubular actuators are manufactured by rolling the DE sheets in a cylindrical shape. The electromechanical characteristics of such actuators are modeled based on equilibrium pressure equation. The model is validated with experimental measurements from 3 actuators. The dynamic characteristics of three tubular actuators fabricated from the same batch of manufactured DE material are presented and compared to: (a) provide insight into the ability of the fabrication process to produce actuators with similar characteristics and (b) highlight the dominant dynamic characteristics of the core-free tubular actuator. It has been observed that all actuators have similar dynamic characteristics in a frequency range up to 1 kHz. A tubular actuator is then used to provide active vibration isolation (AVI) of a 250 g mass subject to shaker generated ‘ground vibration’. An adaptive feedforward control approach is used to achieve this. The tubular actuator is shown to provide excellent isolation against harmonic vibratory disturbances with attenuation of the resulting 5 and 10 Hz harmonics being 66 and 23 dB, respectively. AVI against a narrow band vibratory disturbance with frequency content 2–8 Hz, produced an attenuation of 20 dB across the frequency band. ► We examine the viability of dielectric elastomer actuators for active vibration isolation. ► The production process as well as static and dynamic characteristics are shown and modeled. ► Adaptive feedforward control is used for active vibration isolation using the actuators. ► Active vibration isolation, with 51 dB for tonal and 20 dB for narrowband vibrations, is achieved.
AbstractList	This contribution reviews the fabrication, characterization and active vibration isolation performance of a core-free rolled tubular dielectric elastomer (DE) actuator, which has been designed and developed by Danfoss PolyPower A/S. PolyPower de material, PolyPower super(TM, is produced in thin sheets of 80 mu m thickness with corrugated metallic electrodes on both sides. Tubular actuators are manufactured by rolling the de sheets in a cylindrical shape. The electromechanical characteristics of such actuators are modeled based on equilibrium pressure equation. The model is validated with experimental measurements from 3 actuators. The dynamic characteristics of three tubular actuators fabricated from the same batch of manufactured de material are presented and compared to: (a) provide insight into the ability of the fabrication process to produce actuators with similar characteristics and (b) highlight the dominant dynamic characteristics of the core-free tubular actuator. It has been observed that all actuators have similar dynamic characteristics in a frequency range up to 1 kHz. A tubular actuator is then used to provide active vibration isolation (AVI) of a 250 g mass subject to shaker generated 'ground vibration'. An adaptive feedforward control approach is used to achieve this. The tubular actuator is shown to provide excellent isolation against harmonic vibratory disturbances with attenuation of the resulting 5 and 10 Hz harmonics being 66 and 23 dB, respectively. AVI against a narrow band vibratory disturbance with frequency content 2-8 Hz, produced an attenuation of 20 dB across the frequency band.) This contribution reviews the fabrication, characterization and active vibration isolation performance of a core-free rolled tubular dielectric elastomer (DE) actuator, which has been designed and developed by Danfoss PolyPower A/S. PolyPower DE material, PolyPower TM, is produced in thin sheets of 80 μm thickness with corrugated metallic electrodes on both sides. Tubular actuators are manufactured by rolling the DE sheets in a cylindrical shape. The electromechanical characteristics of such actuators are modeled based on equilibrium pressure equation. The model is validated with experimental measurements from 3 actuators. The dynamic characteristics of three tubular actuators fabricated from the same batch of manufactured DE material are presented and compared to: (a) provide insight into the ability of the fabrication process to produce actuators with similar characteristics and (b) highlight the dominant dynamic characteristics of the core-free tubular actuator. It has been observed that all actuators have similar dynamic characteristics in a frequency range up to 1 kHz. A tubular actuator is then used to provide active vibration isolation (AVI) of a 250 g mass subject to shaker generated ‘ground vibration’. An adaptive feedforward control approach is used to achieve this. The tubular actuator is shown to provide excellent isolation against harmonic vibratory disturbances with attenuation of the resulting 5 and 10 Hz harmonics being 66 and 23 dB, respectively. AVI against a narrow band vibratory disturbance with frequency content 2–8 Hz, produced an attenuation of 20 dB across the frequency band. ► We examine the viability of dielectric elastomer actuators for active vibration isolation. ► The production process as well as static and dynamic characteristics are shown and modeled. ► Adaptive feedforward control is used for active vibration isolation using the actuators. ► Active vibration isolation, with 51 dB for tonal and 20 dB for narrowband vibrations, is achieved.
Author	Jones, R.W. Sarban, R. Rustighi, E. Mace, B.R.
Author_xml	– sequence: 1 givenname: R. surname: Sarban fullname: Sarban, R. email: sarban@danfoss.com organization: Danfoss PolyPower A/S, Nordborg 6430, Denmark – sequence: 2 givenname: R.W. surname: Jones fullname: Jones, R.W. organization: Department of Computer Science, University of York, Derramore Lane, York YO10 5GH, United Kingdom – sequence: 3 givenname: B.R. surname: Mace fullname: Mace, B.R. organization: Institute of Sound and Vibration Research, University of Southampton, Southampton SO17 1BJ, United Kingdom – sequence: 4 givenname: E. surname: Rustighi fullname: Rustighi, E. organization: Institute of Sound and Vibration Research, University of Southampton, Southampton SO17 1BJ, United Kingdom
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Keywords	Feedforward control Dielectric elastomer Frequency response Active vibration isolation Electromechanical control Actuators Vibration test Adaptive control Electric motors Electrodes Vibrations Corrugated surface Active system Linear machines Modelling Vibration source Production process Dynamic characteristic Electroactive polymer Dielectric materials Elastomers Rolling Experimental study Equilibrium equation Cylindrical shape Vibration isolation Soil mechanics Batch process Thin sheet
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SubjectTerms	Active vibration isolation Actuators Applied sciences Dielectric elastomer Dielectrics Disturbances Dynamic characteristics Elastomers Exact sciences and technology Feedforward control Frequency response Fundamental areas of phenomenology (including applications) General equipment and techniques Harmonics Industrial polymers. Preparations Instruments, apparatus, components and techniques common to several branches of physics and astronomy Measurement and testing methods Noise levels Physics Polymer industry, paints, wood Solid mechanics Structural and continuum mechanics Technology of polymers Transducers Vibration Vibration, mechanical wave, dynamic stability (aeroelasticity, vibration control...)
Title	A tubular dielectric elastomer actuator: Fabrication, characterization and active vibration isolation
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