Nonlinear bending and vibration analysis of a variable-width piezoelectric nanoplate with flexoelectric effects

The nonlinear bending and vibration behaviors of a variable-width piezoelectric nanoplate considering flexoelectric effect are investigated in this paper. The nonlinear Mindlin plate theory and finite element method are applied to derive the governing equations of variable-width piezoelectric nanopl...

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Published inActa mechanica Vol. 235; no. 12; pp. 7641 - 7660
Main Authors Yue, Yanmei, Yang, Xiao, Duan, Jingbo, Liu, Jinxi
Format Journal Article
LanguageEnglish
Published Vienna Springer Vienna 01.12.2024
Springer Nature B.V
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ISSN0001-5970
1619-6937
DOI10.1007/s00707-024-04112-9

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Abstract The nonlinear bending and vibration behaviors of a variable-width piezoelectric nanoplate considering flexoelectric effect are investigated in this paper. The nonlinear Mindlin plate theory and finite element method are applied to derive the governing equations of variable-width piezoelectric nanoplate with flexoelectricity. The influences of geometric nonlinearity, flexoelectricity, and varying width on the bending deflection and natural frequency of the piezoelectric nanoplate with flexoelectricity under four kinds of boundary conditions are explored in detail. The numerical results show that the flexoelectric effect can strongly influence the maximum deflection, the morphology of deformation, and the natural frequency of the variable-width piezoelectric nanoplate. The consideration of geometric nonlinearity becomes necessary for nanoplate exhibiting strong flexoelectricity or subject to significant voltage loads. The boundary conditions not only affect the morphology of deformation but also influence the variation trend of natural frequency with the variable-width ratio of the piezoelectric nanoplate. While the variation trend of maximum deflection is jointly affected by the boundary conditions and flexoelectricity. The closer the shape of the piezoelectric nanoplate is to a triangle, the greater the combined effect of boundary conditions and flexoelectricity on the variation trend of maximum deflection. The results of this study can contribute to the optimization of piezoelectric nanostructures, and they are helpful in enhancing our comprehension of the mechanical behavior of piezoelectric nanostructures.
AbstractList The nonlinear bending and vibration behaviors of a variable-width piezoelectric nanoplate considering flexoelectric effect are investigated in this paper. The nonlinear Mindlin plate theory and finite element method are applied to derive the governing equations of variable-width piezoelectric nanoplate with flexoelectricity. The influences of geometric nonlinearity, flexoelectricity, and varying width on the bending deflection and natural frequency of the piezoelectric nanoplate with flexoelectricity under four kinds of boundary conditions are explored in detail. The numerical results show that the flexoelectric effect can strongly influence the maximum deflection, the morphology of deformation, and the natural frequency of the variable-width piezoelectric nanoplate. The consideration of geometric nonlinearity becomes necessary for nanoplate exhibiting strong flexoelectricity or subject to significant voltage loads. The boundary conditions not only affect the morphology of deformation but also influence the variation trend of natural frequency with the variable-width ratio of the piezoelectric nanoplate. While the variation trend of maximum deflection is jointly affected by the boundary conditions and flexoelectricity. The closer the shape of the piezoelectric nanoplate is to a triangle, the greater the combined effect of boundary conditions and flexoelectricity on the variation trend of maximum deflection. The results of this study can contribute to the optimization of piezoelectric nanostructures, and they are helpful in enhancing our comprehension of the mechanical behavior of piezoelectric nanostructures.
Author Duan, Jingbo
Liu, Jinxi
Yue, Yanmei
Yang, Xiao
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CitedBy_id crossref_primary_10_1177_10775463251322566
crossref_primary_10_1038_s41598_024_82002_9
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Snippet The nonlinear bending and vibration behaviors of a variable-width piezoelectric nanoplate considering flexoelectric effect are investigated in this paper. The...
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SubjectTerms Boundary conditions
Classical and Continuum Physics
Control
Deflection
Deformation effects
Dynamical Systems
Engineering
Engineering Fluid Dynamics
Engineering Thermodynamics
Finite element method
Frequency variation
Geometric nonlinearity
Heat and Mass Transfer
Mechanical properties
Mindlin plates
Morphology
Nanostructure
Original Paper
Piezoelectricity
Plate theory
Resonant frequencies
Shape effects
Solid Mechanics
Theoretical and Applied Mechanics
Triangles
Vibration
Vibration analysis
Title Nonlinear bending and vibration analysis of a variable-width piezoelectric nanoplate with flexoelectric effects
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