Smart beams with extension and thickness-shear piezoelectric actuators

Analytical models and exact solutions for beams with thickness-shear and extension piezoelectric actuators are formulated and developed. The models are based on the first-order beam theory (FOBT) and higher-order beam theory (HOBT). The beam bending problem is solved by using the state-space approac...

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Published inSmart materials and structures Vol. 9; no. 1; pp. 1 - 9
Main Authors Aldraihem, Osama J, Khdeir, Ahmed A
Format Journal Article
LanguageEnglish
Published Bristol IOP Publishing 01.02.2000
Institute of Physics
Subjects
Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Physics
Solid mechanics
Structural and continuum mechanics
Structural mechanics (beam, string...)
Theory and numerical methods
Deflection
Smart beam
State space
Correction factor
Numerical method
State space method
Boundary condition
Beam(mechanics)
Canonical form
Exact solution
Extension
Beam theory
Piezoelectric actuators
Analytical method
Bending
Feasibility
Non linear effect
Laminated beam
Intelligent system
Electromechanical properties
Online AccessGet full text
ISSN0964-1726
1361-665X
DOI10.1088/0964-1726/9/1/301

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Abstract Analytical models and exact solutions for beams with thickness-shear and extension piezoelectric actuators are formulated and developed. The models are based on the first-order beam theory (FOBT) and higher-order beam theory (HOBT). The beam bending problem is solved by using the state-space approach along with the Jordan canonical form. Numerical examples of beams incorporating piezoelectric actuators with various boundary conditions are presented. In these examples, the validity of the proposed models and the feasibility of using shear-mode actuators in smart beams are investigated. For the extension-mode actuators there is slight difference between the deflections of the FOBT and that of the HOBT. For the shear-mode actuators there is pronounced difference between the deflections of the FOBT and that of the HOBT. The results of the FOBT are very sensitive to the value of the shear correction factor. The results of the present work are compared with the previously reported results in the literature, where available. Materials discussed include beams of PZT actuator layers and either CFRP or aluminum.
AbstractList Analytical models and exact solutions for beams with thickness-shear and extension piezoelectric actuators are formulated and developed. The models are based on the first-order beam theory (FOBT) and higher-order beam theory (HOBT). The beam bending problem is solved by using the state-space approach along with the Jordan canonical form. Numerical examples of beams incorporating piezoelectric actuators with various boundary conditions are presented. In these examples, the validity of the proposed models and the feasibility of using shear-mode actuators in smart beams are investigated. For the extension-mode actuators there is slight difference between the deflections of the FOBT and that of the HOBT. For the shear-mode actuators there is pronounced difference between the deflections of the FOBT and that of the HOBT. The results of the FOBT are very sensitive to the value of the shear correction factor. The results of the present work are compared with the previously reported results in the literature, where available. Materials discussed include beams of PZT actuator layers and either CFRP or aluminum.
Analytical models and exact solutions for beams with thickness-shear and extension piezoelectric actuators are formulated and developed. The models are based on the first-order beam theory (FOBT) and higher-order beam theory (HOBT). The beam bending problem is solved by using the state-space approach along with the Jordan canonical form. Numerical examples of beams incorporating piezoelectric actuators with various boundary conditions are presented. In these examples, the validity of the proposed models and the feasibility of using shear-mode actuators in smart beams are investigated. For the extension-mode actuators there is a slight difference between the deflections of the FOBT and that of the HOBT. For the shear-mode actuators there is a pronounced difference between the deflections of the FOBT and that of the HOBT. The results of the FOBT are very sensitive to the value of the shear correction factor. The results of the present work are compared with the previously reported results in the literature. (Author)
Author Khdeir, Ahmed A
Aldraihem, Osama J
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Issue 1
Keywords Deflection
Smart beam
State space
Correction factor
Numerical method
State space method
Boundary condition
Beam(mechanics)
Canonical form
Exact solution
Extension
Beam theory
Piezoelectric actuators
Analytical method
Bending
Feasibility
Non linear effect
Laminated beam
Intelligent system
Electromechanical properties
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Snippet Analytical models and exact solutions for beams with thickness-shear and extension piezoelectric actuators are formulated and developed. The models are based...
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SubjectTerms Exact sciences and technology
Fundamental areas of phenomenology (including applications)
Physics
Solid mechanics
Structural and continuum mechanics
Structural mechanics (beam, string...)
Theory and numerical methods
Title Smart beams with extension and thickness-shear piezoelectric actuators
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