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2017 | OriginalPaper | Buchkapitel

1. Role of the Structural Nonlinearity in Enhancing the Performance of a Vibration Energy Harvester Based on the Electrets Materials

verfasst von : Eugenio G. M. Brusa, Mircea Gh. Munteanu

Erschienen in: Smart Structures and Materials

Verlag: Springer International Publishing

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Abstract

Films of the electrets material are currently proposed to design compact vibration energy harvesters. They are used to cover the surface of electrodes of some capacitive devices based on a deformable microbeam clamped at both its ends. The performance of those energy harvesters is often predicted in the literature by neglecting the effect of the geometric nonlinearity due to a mechanical coupling occurring between the axial and flexural behaviors of the clamped-clamped microbeam. This nonlinearity is herein investigated, by resorting to a distributed model of the electromechanical coupling applied to the vibration energy harvester. The analysis is performed by means of the finite element method. The performance of energy conversion is then analyzed and some new configurations of the vibration energy harvester are proposed.

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Wilson S (2007) New materials for microscale sensors and actuators—an engineering review. Mater Sci Eng R56:1–129CrossRef

Uchino K (2010) Advanced piezoelectric materials. Woodhead Publishing Ltd., CambridgeCrossRef

Evreinov G, Raisamo R (2005) One–directional position–sensitive force transducer based on EMFi. Sens Actuators A 123–124:204–209CrossRef

Pozzi M, Zhu M (2011) Plucked piezoelectric bimorphs for knee-joint energy harvesting: modeling and experimental validation. Smart Mater Struct 20

Mitcheson P, Yeatman E, Rao GK, Holmes AS, Green TC (2008) Energy Harvesting from human and machine motion for wireless electronic devices. Proc IEEE 96(9):1457–1486CrossRef

Boisseau S, Despesse G, Seddik BA (2012) Electrostatic conversion for vibration energy harvesting. In: Small–scale energy harvesting. Intech, 2012

Sterken T, Fiorini P, Baert K, Puers K, Borghs G (2003) An electrets–based electrostatic–generator. In: Proceedings of the 12th International conference on solid state sensors, actuators microsystems (Transducers), Boston, MA, pp 1291–1294

Okamoto H, Suzuki T, Mori K, Cao Z, Onuki T, Kuwano H (2009) The advantages and potential of electrets–based vibration–driven micro energy harvesters. Int J Energy Res 33:1180–1190CrossRef

Mizuno M, Chetwynd DG (2003) Investigation of a resonance microgenerator. J Micromech Microeng 13:209–216CrossRef

10.

Brusa E, Munteanu M (2009) Role of nonlinearity and chaos on RF-MEMS structural dynamics. In: Proceedings of the IEEE, design test integration packaging of MEMS and MOEMS—DTIP 2009, 1–3 April 2009, Roma, Italy, IEEE Catalog N. CFP09DTI

11.

Paajanen M, Vaklimakki H, Lekkala J (2000) Modelling the electromechanical film (EMFi). J Electrostat 48:193–204CrossRef

12.

Paajanen M, Lekkala J, Kirjavainen K (2000) ElectroMechanical Film EMFi—a new multipurpose electret material. Sens Actuators 84:95–102CrossRef

13.

Deng Q, Liu L, Sharma P (2014) Electrets in soft materials: nonlinearity, size effects, and giant electromechanical coupling. Phys Rev E 90:0126031–0126037

14.

Bettini P , Brusa E, Munteanu M, Specogna R, Trevisan F (2008) Innovative numerical methods for nonlinear MEMS: the non incremental FEM vs. the discrete geometric approach. Comput Modell Eng Sci (CMES), 33(3):215–242

15.

Boisseau S, Despesse G, Ricart T, Defay E, Sylvestre A (2011) Cantilever–based energy harvesters. Smart Mater Struct 20:105013

16.

Chiu Y, Lee Y-C (2013) Flat and robust out–of–plane vibrational electret energy harvester. J Micromech Microeng 23:015012–8 pp

17.

Miki D, Honzumi M, Suzuki Y, Kasagi N (2013) Large amplitude MEMS electret generator with nonlinear spring. Proc IEEE:176–179. ISBN-978-1-4244-5764-9

18.

Suzuki Y, Miki D, Edamoto M, Honzumi M (2010) A MEMS electret generator with electrostatic levitation for vibration-driven energy-harvesting applications. J Micromech Microeng 20:104002–8 pp

19.

Brusa E (2006) Dynamics of mechatronic systems at microscale. In: Microsystem mechanical design, CISM Lectures Series, 478, Springer Verlag, Wien, 2006, pp 57–80

20.

Zienlkiewicz OC, Taylor RL (2004) The finite element method, 5th edn. Butterworth-Heinemann

21.

Lucyszyn S (2010) Advanced RF MEMS. Cambridge University Press, CambridgeCrossRef

Titel: Role of the Structural Nonlinearity in Enhancing the Performance of a Vibration Energy Harvester Based on the Electrets Materials
verfasst von: Eugenio G. M. Brusa
Mircea Gh. Munteanu
Verlag: Springer International Publishing
Buch: Smart Structures and Materials
Print ISBN: 978-3-319-44505-2

Electronic ISBN: 978-3-319-44507-6

Copyright-Jahr: 2017
DOI: https://doi.org/10.1007/978-3-319-44507-6_1

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