Modeling nonlinear behavior in a piezoelectric actuator

H. Richter; Eduardo A. Misawa; D. A. Lucca; H. Lu

doi:10.1016/S0141-6359(00)00067-2

Modeling nonlinear behavior in a piezoelectric actuator

H. Richter
, Eduardo A. Misawa
, D. A. Lucca
, H. Lu

Mechanical Engineering

Oklahoma State University

Research output: Contribution to journal › Article › peer-review

97 Scopus citations

Abstract

A piezoelectric tube actuator is employed as a sample positioning device in Nanocut, a cutting instrument conceived to study the mechanics of nanometric cutting. Extension of functionality of the instrument as a nanometric machine tool motivates the search for an accurate model of the actuator for implementing feedback control. A simple nonlinear model describing longitudinal expansion of the piezoelectric tube actuator is presented in this paper. The model derivation is based on a non-formal analogy with nonlinear viscoelastic materials under uniaxial extension, for which the responses to a step input are similar to the piezoelectric tube. Suitability of the model structure for arbitrary inputs is tested by cross-verification between time and frequency domains. Two parameter estimation procedures are examined and the results of the experimental work for characterization, estimation and validation are presented. © 2001 Elsevier Science Inc.

Original language	English
Pages (from-to)	128-137
Number of pages	10
Journal	Precision Engineering
Volume	25
Issue number	2
DOIs	https://doi.org/10.1016/S0141-6359(00)00067-2
State	Published - Apr 1 2001

Keywords

Nanometric cutting
Nonlinear dynamic models
Nonlinear viscoelasticity
Piezoelectric tube
Rheological models

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10.1016/S0141-6359(00)00067-2

Cite this

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title = "Modeling nonlinear behavior in a piezoelectric actuator",

abstract = "A piezoelectric tube actuator is employed as a sample positioning device in Nanocut, a cutting instrument conceived to study the mechanics of nanometric cutting. Extension of functionality of the instrument as a nanometric machine tool motivates the search for an accurate model of the actuator for implementing feedback control. A simple nonlinear model describing longitudinal expansion of the piezoelectric tube actuator is presented in this paper. The model derivation is based on a non-formal analogy with nonlinear viscoelastic materials under uniaxial extension, for which the responses to a step input are similar to the piezoelectric tube. Suitability of the model structure for arbitrary inputs is tested by cross-verification between time and frequency domains. Two parameter estimation procedures are examined and the results of the experimental work for characterization, estimation and validation are presented. {\textcopyright} 2001 Elsevier Science Inc.",

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N2 - A piezoelectric tube actuator is employed as a sample positioning device in Nanocut, a cutting instrument conceived to study the mechanics of nanometric cutting. Extension of functionality of the instrument as a nanometric machine tool motivates the search for an accurate model of the actuator for implementing feedback control. A simple nonlinear model describing longitudinal expansion of the piezoelectric tube actuator is presented in this paper. The model derivation is based on a non-formal analogy with nonlinear viscoelastic materials under uniaxial extension, for which the responses to a step input are similar to the piezoelectric tube. Suitability of the model structure for arbitrary inputs is tested by cross-verification between time and frequency domains. Two parameter estimation procedures are examined and the results of the experimental work for characterization, estimation and validation are presented. © 2001 Elsevier Science Inc.

AB - A piezoelectric tube actuator is employed as a sample positioning device in Nanocut, a cutting instrument conceived to study the mechanics of nanometric cutting. Extension of functionality of the instrument as a nanometric machine tool motivates the search for an accurate model of the actuator for implementing feedback control. A simple nonlinear model describing longitudinal expansion of the piezoelectric tube actuator is presented in this paper. The model derivation is based on a non-formal analogy with nonlinear viscoelastic materials under uniaxial extension, for which the responses to a step input are similar to the piezoelectric tube. Suitability of the model structure for arbitrary inputs is tested by cross-verification between time and frequency domains. Two parameter estimation procedures are examined and the results of the experimental work for characterization, estimation and validation are presented. © 2001 Elsevier Science Inc.

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KW - Nonlinear dynamic models

KW - Nonlinear viscoelasticity

KW - Piezoelectric tube

KW - Rheological models

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Modeling nonlinear behavior in a piezoelectric actuator

Abstract

Keywords

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