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Vol. 32, No. 8(2), S&M2292

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Sensors and Materials, Volume 31, Number 5(1) (2019)
Copyright(C) MYU K.K.
pp. 1557-1565
S&M1879 Research Paper of Special Issue
https://doi.org/10.18494/SAM.2019.2276
Published: May 16, 2019

Nonlinear Magnetoelectric Coupling Dynamic Characteristics of Galfenol-piezoelectric Film Sensors [PDF]

Xiao-Huan Li, Zhi-Wen Zhu, Guo-Song Feng, and Jia Xu

(Received April 17, 2018; Accepted March 20, 2019)

Keywords: Galfenol, piezoelectric ceramics, hysteretic nonlinearity, magnetoelectric response

A type of Galfenol-piezoelectric composite film sensor is proposed in this paper, and its nonlinear magnetoelectric coupling dynamic characteristics are discussed. Nonlinear differential terms are introduced to explain the hysteresis of Galfenol’s strain–magnetic-field- intensity (MFI) curves, and a new Galfenol’s model is established. The fitting effect of the Galfenol’s model on the experimental data is proved by the partial least-squares regression method. A nonlinear dynamic model for such a sensor subjected to a harmonic magnetic field and a stochastic electromagnetic interference has been developed, and its strongly nonlinear dynamic response is obtained by the developed Lindstedt–Poincare (L–P) method. The results of numerical simulation show that the Galfenol-piezoelectric composite film sensor has complex dynamic characteristics; the stochastic electromagnetic interference plays an important role in the system’s dynamic response. The results of this study are helpful for the optimal design and improvement of Galfenol-piezoelectric composite film sensors.

Corresponding author: Feng, and Jia Xu


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Cite this article
Xiao-Huan Li, Zhi-Wen Zhu, Guo-Song Feng, and Jia Xu, Nonlinear Magnetoelectric Coupling Dynamic Characteristics of Galfenol-piezoelectric Film Sensors, Sens. Mater., Vol. 31, No. 5, 2019, p. 1557-1565.



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