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Electromechanical coupling analysis of geometrically exact functionally graded piezoelectric shells based on weak form quadrature element method
Electromechanical coupling analysis of geometrically exact functionally graded piezoelectric shells based on weak form quadrature element method
by Chen, Tingrui , Liu, Jijun , Yao, Xiaohu , Zhang, Run
in Approximation / Barium titanates / Classical Mechanics / Couplings / Deformation / Electric fields / Engineering / Functionally gradient materials / Graphene / Methods / Nanoelectronics / Numerical analysis / Numerical models / Original / Piezoelectricity / Quadratures / Shear strain / Theoretical and Applied Mechanics / Thickness
2024
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Electromechanical coupling analysis of geometrically exact functionally graded piezoelectric shells based on weak form quadrature element method
by Chen, Tingrui , Liu, Jijun , Yao, Xiaohu , Zhang, Run
in Approximation / Barium titanates / Classical Mechanics / Couplings / Deformation / Electric fields / Engineering / Functionally gradient materials / Graphene / Methods / Nanoelectronics / Numerical analysis / Numerical models / Original / Piezoelectricity / Quadratures / Shear strain / Theoretical and Applied Mechanics / Thickness
2024
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Electromechanical coupling analysis of geometrically exact functionally graded piezoelectric shells based on weak form quadrature element method
Electromechanical coupling analysis of geometrically exact functionally graded piezoelectric shells based on weak form quadrature element method
by Chen, Tingrui , Liu, Jijun , Yao, Xiaohu , Zhang, Run
in Approximation / Barium titanates / Classical Mechanics / Couplings / Deformation / Electric fields / Engineering / Functionally gradient materials / Graphene / Methods / Nanoelectronics / Numerical analysis / Numerical models / Original / Piezoelectricity / Quadratures / Shear strain / Theoretical and Applied Mechanics / Thickness
2024

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Electromechanical coupling analysis of geometrically exact functionally graded piezoelectric shells based on weak form quadrature element method
Electromechanical coupling analysis of geometrically exact functionally graded piezoelectric shells based on weak form quadrature element method
Journal Article

Electromechanical coupling analysis of geometrically exact functionally graded piezoelectric shells based on weak form quadrature element method

Chen, Tingrui,
Liu, Jijun,
Yao, Xiaohu,
Zhang, Run
2024
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Overview
In this study, a numerical model for electro-mechanical coupling analysis of geometrically nonlinear functionally graded piezoelectric shell is developed based on the weak form quadrature element method. Both piezoelectric and flexoelectric effects are introduced to establish the geometrically exact shell model with its constituent BaTiO 3 and PZT-5H graded through the thickness. The electric potentials are assumed quadratic along the shell thickness to introduce the electric field for numerical implementation, while four different closed- or open-circuit conditions are considered. Four typical examples are presented to demonstrate the effectiveness of the present model and illustrate the influences of electro-mechanical couplings and functional graded materials on the responses of shells undergoing large displacements and rotations. This model is a feasible scheme for studying complex nonlinear behaviors of piezoelectric shells that might be helpful in devising piezoelectric shell-based nanoelectronics.
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Publisher
Springer Berlin Heidelberg,Springer Nature B.V
Subject

Approximation

/ Barium titanates

/ Classical Mechanics

/ Couplings

/ Deformation

/ Electric fields

/ Engineering

/ Functionally gradient materials

/ Graphene

/ Methods

/ Nanoelectronics

/ Numerical analysis

/ Numerical models

/ Original

/ Piezoelectricity

/ Quadratures

/ Shear strain

/ Theoretical and Applied Mechanics

/ Thickness

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