Hysteresis and the nonlinear equivalent piezoelectric coefficient of MFCs for actuation

被引：0

作者：

Xue Zheng ^{[1
,2
]}

Li Lin ^{[1
,2
]}

MNIchchou ^{[3
]}

Li Chao ^{[1
,2
]}

机构：

[1] School of Energy and Power Engineering, Beihang University

[2] Collaborative Innovation Center for Advanced Aero-Engine

[3] Laboratoire de Tribologie et Dynamique des Systèmes (LTDS),UMR , Ecole Centrale de Lyon

来源：

Chinese Journal of Aeronautics | 2017年 / 01期

关键词：

Hysteresis; Macro fiber composite; Nonlinear piezoelectric coef ficients; Piezoelectric materials; Preisach model;

D O I：

暂无

中图分类号：

TB33 [复合材料]; TM911.45 [生物化学燃料电池、微生物燃料电池];

学科分类号：

0805 ; 080502 ; 0808 ;

摘要：

The hysteretic behavior and nonlinearity of the equivalent material coefficient of macro fiber composites(MFC) under staircase input conditions are investigated using the Preisach model.Based on a database of first order reversal curves, formulas are derived to predict the hysteresis of strain output and nonlinearity of the equivalent piezoelectric coefficient of MFCs. Formulae are verified by comparing the predicted strains with the measured strains of three MFC specimens,which are driven by a random sequence of staircase voltage inputs. The coefficients obtained by the formulae and experimentation coincide. Further results indicate that the equivalent piezoelectric strain coefficient depends greatly on the value of drive voltage across the entire input range, and the coefficient is asymmetric across the negative and positive input ranges. Deflection testing of an MFC composite cantilever demonstrates the importance of taking the nonlinearity of the equivalent piezoelectric coefficient into consideration in the application of actuation.

引用

页码：88 / 98

页数：11

共 10 条

[1]

Study on the nonlinear electro-mechanical model of macro fibercomposite[J] . Xavier Maldague,Toshiyuki Takagi,Luqi Chen,Ping Zhang,Xiaohong Wu,Qing Sun.International Journal of Applied Electromagnetics . 2014 (1-4)

[2] Finite element characterization and parametric analysis of the nonlinear behaviour of an actual d15 shear MFC [J].

Trindade, Marcelo A. ;

Benjeddou, Ayech .

ACTA MECHANICA, 2013, 224 (11) :2489-2503

[3] Numerical and experimental characterizations of longitudinally polarized piezoelectric d15 shear macro-fiber composites [J].

Kranz, Burkhard ;

Benjeddou, Ayech ;

Drossel, Welf-Guntram .

ACTA MECHANICA, 2013, 224 (11) :2471-2487

[4] Micromechanics models for the effective nonlinear electro-mechanical responses of piezoelectric composites [J].

Lin, Chien-Hong ;

Muliana, Anastasia .

ACTA MECHANICA, 2013, 224 (07) :1471-1492

[5]

The electric field, dc bias voltage and frequency dependence of actuation performance of piezoelectric fiber composites[J] . Xiujuan Lin,Kechao Zhou,Song Zhu,Ziqi Chen,Dou Zhang.Sensors & Actuators: A. Physical . 2013

[6]

Nonlinear electromechanical fields and localized polarization switching of piezoelectric macrofiber composites[J] . Yasuhide Shindo,Fumio Narita,Koji Sato,Tomo Takeda.Journal of Mechanics of Materials and Structures . 2011 (7)

[7]

Control of a flexible beam actuated by macro-fiber composite patches: II. Hysteresis andcreep compensation, experimental results[J] . Smart Materials and Structures . 2011 (1)

[8]

Time-dependent response of active composites with thermal, electrical, and mechanical coupling effect[J] . Anastasia Muliana,Kuo-An Li.International Journal of Engineering Science . 2010 (11)

[9] Temperature-dependent thermoelastic properties for macro fiber composite actuators [J].

Williams, RB ;

Inman, DJ ;

Wilkie, WK .

JOURNAL OF THERMAL STRESSES, 2004, 27 (10) :903-915

[10]

Structural and Machine Design Using Piezoceramic Materials: A Guide for Structural Design Engineers .2 Inman,D. J. and Cudney,H. H. Final Report to NASA Langley Research Center . 2000

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