Enhancement of electrostrictive polymer efficiency for energy harvesting with cellular polypropylene electrets

► Enhancement of electrostrictive polymer efficiency. ► Energy harvesting with cellular colypropylene electrets. ► Harvested power demonstrated an excellent potential of using the cellular polypropylene with electrostrictive polymers. ► New method to estimate the conversion efficiency in electroacti...

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Published inSynthetic metals Vol. 162; no. 21-22; pp. 1948 - 1953
Main Authors Eddiai, A., Meddad, M., Guyomar, D., Hajjaji, A., Boughaleb, Y., Yuse, K., Touhtouh, S., Sahraoui, B.
Format Journal Article
LanguageEnglish
Published Amsterdam Elsevier B.V 01.12.2012
Elsevier
Subjects
Applied sciences
Chemical Sciences
Electromechanical conversion
Electrostrictive polymer
Energy harvesting efficiency
Exact sciences and technology
Forms of application and semi-finished materials
Miscellaneous
Polymer industry, paints, wood
Polypropylene electrets
Technology of polymers
Electrostrictive polymer
Energy harvesting efficiency
Electromechanical conversion
Polypropylene electrets
Electromechanical device
Short circuit currents
Voltage current curve
Propylene polymer
Electret
Cellular material
Energy recovery
Electrostriction
Experimental study
Carbon
Polyurethane
Nanocomposite
Current time characteristic
Bilayers
Efficiency
composite
generator
Energy harvesting
vibration
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Abstract ► Enhancement of electrostrictive polymer efficiency. ► Energy harvesting with cellular colypropylene electrets. ► Harvested power demonstrated an excellent potential of using the cellular polypropylene with electrostrictive polymers. ► New method to estimate the conversion efficiency in electroactive polymers and composites. The purpose of this paper is to propose new means for harvesting energy using electrostrictive polymers. The recent development of electrostrictive polymers has generated new opportunities for high-strain actuators. At the current time, the investigation of using electrostrictive polymer for energy harvesting, or mechanical-to-electrical energy conversion, is beginning to show its potential for this application. The objective of this work was to study the effect of cellular polypropylene electrets after high-voltage corona poling on an electrostrictive polyurethane composite filled with 1vol.% carbon black at a low applied voltage in order to increase the efficiency of the electromechanical conversion with electrostrictive polymers. Theoretical analysis supported by experimental investigations showed that an energy harvesting with this structure rendered it possible to obtain harvested power up to 13.93nW using a low electric field of 0.4V/μm and a transverse strain of 3% at a mechanical frequency of 15Hz. This represents an efficiency of 78.14% at low frequency. This percentage is very significant compared to other structures. Finally, it was found that the use of polypropylene electrets with electrostrictive polymers was the best way to decrease the power of polarization in order to obtain a good efficiency of the electromechanical conversion for energy harvesting.
AbstractList The purpose of this paper is to propose new means for harvesting energy using electrostrictive polymers. The recent development of electrostrictive polymers has generated new opportunities for high-strain actuators. At the current time, the investigation of using electrostrictive polymer for energy harvesting, or mechanical-to-electrical energy conversion, is beginning to show its potential for this application. The objective of this work was to study the effect of cellular polypropylene electrets after high-voltage corona poling on an electrostrictive polyurethane composite filled with 1 vol.% carbon black at a low applied voltage in order to increase the efficiency of the electromechanical conversion with electrostrictive polymers. Theoretical analysis supported by experimental investigations showed that an energy harvesting with this structure rendered it possible to obtain harvested power up to 13.93 nW using a low electric field of 0.4 V/mu m and a transverse strain of 3% at a mechanical frequency of 15 Hz. This represents an efficiency of 78.14% at low frequency. This percentage is very significant compared to other structures. Finally, it was found that the use of polypropylene electrets with electrostrictive polymers was the best way to decrease the power of polarization in order to obtain a good efficiency of the electromechanical conversion for energy harvesting.
► Enhancement of electrostrictive polymer efficiency. ► Energy harvesting with cellular colypropylene electrets. ► Harvested power demonstrated an excellent potential of using the cellular polypropylene with electrostrictive polymers. ► New method to estimate the conversion efficiency in electroactive polymers and composites. The purpose of this paper is to propose new means for harvesting energy using electrostrictive polymers. The recent development of electrostrictive polymers has generated new opportunities for high-strain actuators. At the current time, the investigation of using electrostrictive polymer for energy harvesting, or mechanical-to-electrical energy conversion, is beginning to show its potential for this application. The objective of this work was to study the effect of cellular polypropylene electrets after high-voltage corona poling on an electrostrictive polyurethane composite filled with 1vol.% carbon black at a low applied voltage in order to increase the efficiency of the electromechanical conversion with electrostrictive polymers. Theoretical analysis supported by experimental investigations showed that an energy harvesting with this structure rendered it possible to obtain harvested power up to 13.93nW using a low electric field of 0.4V/μm and a transverse strain of 3% at a mechanical frequency of 15Hz. This represents an efficiency of 78.14% at low frequency. This percentage is very significant compared to other structures. Finally, it was found that the use of polypropylene electrets with electrostrictive polymers was the best way to decrease the power of polarization in order to obtain a good efficiency of the electromechanical conversion for energy harvesting.
Author Eddiai, A.
Sahraoui, B.
Meddad, M.
Yuse, K.
Guyomar, D.
Boughaleb, Y.
Touhtouh, S.
Hajjaji, A.
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Issue 21-22
Keywords Electrostrictive polymer
Energy harvesting efficiency
Electromechanical conversion
Polypropylene electrets
Electromechanical device
Short circuit currents
Voltage current curve
Propylene polymer
Electret
Cellular material
Energy recovery
Electrostriction
Experimental study
Carbon
Polyurethane
Nanocomposite
Current time characteristic
Bilayers
Efficiency
composite
generator
Energy harvesting
vibration
Language English
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Snippet ► Enhancement of electrostrictive polymer efficiency. ► Energy harvesting with cellular colypropylene electrets. ► Harvested power demonstrated an excellent...
The purpose of this paper is to propose new means for harvesting energy using electrostrictive polymers. The recent development of electrostrictive polymers...
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StartPage 1948
SubjectTerms Applied sciences
Chemical Sciences
Electromechanical conversion
Electrostrictive polymer
Energy harvesting efficiency
Exact sciences and technology
Forms of application and semi-finished materials
Miscellaneous
Polymer industry, paints, wood
Polypropylene electrets
Technology of polymers
Title Enhancement of electrostrictive polymer efficiency for energy harvesting with cellular polypropylene electrets
URI https://dx.doi.org/10.1016/j.synthmet.2012.08.012
https://univ-angers.hal.science/hal-03344710
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