Hostname: page-component-cd9895bd7-gvvz8 Total loading time: 0 Render date: 2024-12-25T19:23:02.910Z Has data issue: false hasContentIssue false
  • English
  • Français

Piezoceramic shunted damping concept: testing, modellingand correlation

Published online by Cambridge University Press:  10 November 2009

Gaël Chevallier ,
Salma Ghorbel  and
Ayech Benjeddou
Gaël Chevallier
Affiliation:
Institut Supérieur de Mécanique de Paris, LISMMA, Structures, 3 rue Fernand Hainault, 93407 Saint-Ouen Cedex, France
Salma Ghorbel
Affiliation:
Institut Supérieur de Mécanique de Paris, LISMMA, Structures, 3 rue Fernand Hainault, 93407 Saint-Ouen Cedex, France
Ayech Benjeddou
Affiliation:
Institut Supérieur de Mécanique de Paris, LISMMA, Structures, 3 rue Fernand Hainault, 93407 Saint-Ouen Cedex, France
Get access

Abstract

New laboratory tests are presented for the experimental evaluation and assessment of the piezoceramic shunted damping (PSD) concept for cantilever Aluminium thin (long) beams bonded symmetrically on their upper/lower surfaces with single pairs of small piezoceramic patches. Following these tests outcome, the PSD efficiency measure is proposed to be the so-called modal effective electromechanical coupling coefficient, which is post-processed from free-vibrations analyses under short-circuit and open-circuit electrodes of the patches. For this purpose, the tests are numerically modelled, analysed, and correlated using ABAQUS® commercial finite element (FE) code. Good tests/models correlations were reached after FE models electromechanical updating. This is attributed to the refined FE models in the sense that they have considered realistic and desirable features such as, electrodes equipotentiality, piezoceramic patches poling orientations (same/opposite), and the corresponding (parallel/series) electric wiring (connections).

Keywords

Piezoceramic shunted dampingexperimental testsfinite element analysiselectrodes equipotentialitypiezoceramic poling orientationpatches electric wiringmodels electromechanical updatingAmortissement piézocéramique shuntétests expérimentauxanalyse par éléments finiséquipotentialité des électrodesorientation des polarisations piézoélectriquesconnexions électriques de patchesrecalage électromécanique de modèles
Type
Research Article
Information
Mechanics & Industry , Volume 10 , Issue 5 , September 2009 , pp. 397 - 411
Copyright
© AFM, EDP Sciences, 2009

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Forward, R.L., Electronic damping of vibrations in optical structures, Appl. Opt. 18 (1979) 690697 CrossRef
IRE, IRE Standards on piezoelectric crystals: determination of the elastic, piezoelectric, and dielectric constants, Proc. IRE 46 (1958) 764778 CrossRef
IEEE, IEEE Standards on piezoelectricity. ANS n° 176–187, 1988
Naillon, M., Coursant, R.H., Besnier, F., Analyse de structures piézoélectriques par une méthode d'éléments finis, Acta Electronica 25 (1983) 341362
Chang, S.H., Rogacheva, N.N., Chou, C.C.. Analysis methods for determining electromechanical coupling coefficients of piezoelectric elements, IEEE Trans. Ultras. Freq. Control 42 (1995) 630640 CrossRef
Hagood, N.W., von Flotow, A., Damping of structural vibrations with piezoelectric materials and passive electrical networks, J. Sound Vib. 146 (1991) 243268 CrossRef
Benjeddou, A., Ranger-Vieillard, J.A., Use of shunted shear-mode piezoceramics for structural vibration passive damping, Comput. Struct. 84 (2006) 14151425 CrossRef
A. Benjeddou, J.A. Ranger, Vibration damping using resonant shunted shear-mode piezoceramics, in: C.A. Mota Soares et al. (éds.), Proceedings of the Third European Conference on Computational Mechanics, Solids, Structures and Coupled Problems in Engineering, Lisbon, June 2006
B. de Marneffe, Active and passive vibration isolation and damping via shunted transducers, Thèse, Faculté des Sciences Appliquées, Université Libre de Bruxelles, Décembre 2007
Deü, J.F., Benjeddou, A., Free-vibration analysis of laminated plates with embedded shear-mode piezoceramic layers, Int. J. Solids Struct. 42 (2005) 20592088 CrossRef
Al-Ajmi, M.A., Benjeddou, A., Damage indication in smart structures using modal effective electromechanical coupling coefficients, Smart Mater. Struct. 17 (2008) 035023 CrossRef
A. Benjeddou, J.A. Ranger, Simple finite element modelling and performance evaluation of passive vibration damping using shunted piezoceramics, in: Proceedings of the First International Congress on Design and Modelling of Mechanical Systems, Hammamet, March 2005
Lesieutre, G.A., Vibration damping and control using shunted piezoelectric materials, Shock Vib. Dig. 30 (1998) 187195 CrossRef
Ahmadian, M., DeGuilio, A.P., Recent advances in the use of piezoceramics for vibration suppression, Shock Vib. Dig. 33 (2001) 1522 CrossRef
Moheimani, S.O.R., A survey of recent innovations in vibration damping and control using shunted piezoelectric transducers, IEEE Trans, Control Syst. Tech. 11 (2003) 482494 CrossRef
Poizat, C., Benjeddou, A., On analytical and finite element modelling of piezoelectric extension and shear bimorphs, Comput. Struct. 84 (2006) 14261437 CrossRef
Hagood, N.W., Chung, W.H., von Flotow, A., Modelling of piezoelectric actuator dynamics for active structural control, J. Intell. Mater. Syst. Struct. 1 (1990) 327354 CrossRef
Hollkamp, J.J., Multimodal passive vibration suppression with piezoelectric materials and resonant shunts, J. Intell. Mater. Syst. Struct. 5 (1994) 4957 CrossRef
Park, C.H., Kim, Y.H., Park, H.C., Dynamic formulation of plates with shunted piezoelectric materials, J. Intell. Mater. Syst. Struct. 16 (2005) 971976 CrossRef
Kim, J., Ryu, Y.H., Choi, S.B., New shunting parameter tuning method for piezoelectric damping based on measured electrical impedance, Smart Mater. Struct. 9 (2000) 868877 CrossRef
Davis, C.L., Lesieutre, G.A., A modal strain energy approach to the prediction of resistively shunted piezoceramic damping, J. Sound Vib. 181 (1995) 129139 CrossRef
Poizat, C., Sester, M., Finite element modelling of passive damping with resistively shunted piezocomposites, Computational Mater. Sci. 19 (2000) 183188 CrossRef
Adashi, K., Awakura, Y., Iwatsubo, T., Variable hybrid piezoelectric damping based on control power requirement, in: D.J. Inman (éd.), Proceedings SPIE Smart Structures and Materials: Damping and Isolation 4331 (2001) 396407
Tanimoto, T., A new vibration damping CFRP material with interlayers of dispersed piezoelectric ceramic particles, Compos. Sci. Tech. 67 (2007) 213221 CrossRef
Desai, S., Lovell, M., Cordle, J., Coupled field analysis of a piezoelectric bimorph disc in a direct write process, Compos. Pt. B 38 (2007) 824832 CrossRef
Choi, S.B., Kim, H.S., Park, J.S., Multi-mode vibration of a CD-ROM drive base using a piezoelectric shunt circuit, J. Sound Vib. 300 (2007) 160175 CrossRef
G. Chevallier, J.A. Ranger, A. Benjeddou, H. Sebbah, Passive vibration damping using resistively shunted piezoceramics: an experimental performance evaluation, in: Proceedings of the Second International Congress on Design and Modelling of Mechanical Systems, Monastir, March 2007
Zhang, N., Kirpitchenko, I., Modelling dynamics of a continuous structure with a piezoelectric sensor/actuator for passive structural control, J. Sound Vib. 249 (2002) 251261 CrossRef
Kandagal, S.B., Venkatraman, K., Form factors for vibration control of beams using resistively shunted piezoceramics, Letter to the Editor of J. Sound Vib. 274 (2004) 11231133 CrossRef
Belloli, A., Niederberger, D., Pietrzko, S., Morari, M., Ermanni, P., Structural vibration control via R-L shunted active fiber composites, J. Intell. Mater. Syst. Struct. 18 (2007) 275287 CrossRef
Becker, J., Fein, O., Maess, M., Gaul, L., Finite element-based analysis of shunted piezoelectric structures for vibration damping, Comput. Struct. 84 (2006) 23402350 CrossRef
Andreaus, U., Porfiri, M., Effect of electrical uncertainties on resonant piezoelectric shunting, J. Intell. Mater. Syst. Struct. 18 (2007) 477485 CrossRef
Agneni, A., Mastroddi, F., Polli, G.M., Shunted piezoelectric patches in elastic and aeroelastic vibrations, Comput. Struct. 81 (2003) 91105 CrossRef
Trindade, M.A., Benjeddou, A., Ohayon, R., Finite element analysis of frequency- and temperature-dependent hybrid active-passive vibration damping, Europ. J. Finite Elem. 9 (2000) 89111
Trindade, M.A., Benjeddou, A., Ohayon, R., Modelling of frequency-dependent viscoelastics for hybrid active-passive vibration control, ASME J. Vib. Acoust. 122 (2000) 169174 CrossRef
S. Ghorbel, G. Chevallier, A. Benjeddou, Détermination expérimentale et numérique du coefficient de couplage électromécanique généralisé de structures piézoélectriques, in : XVIème Colloque Vibrations Chocs et Bruit, Lyon, 10–12 juin 2008
Chevallier, G., Ghorbel, S., Benjeddou, A., A benchmark for free vibration and effective coupling of thick piezoelectric smart structures, Smart Mater. Struct. 17 (2008) 065007, p. 11 CrossRef