Hygrothermal Static Bending and Deflection Responses of Porous Multidirectional Nanofunctionally Graded Piezoelectric (NFGP) Plates With Variable Thickness on Elastic Foundations

ABSTRACT This research article introduces a high‐order finite element model based on the first‐order shear deformation theory to analyze the hygrothermal static responses of nanoscale, multidirectional nanofunctionally graded piezoelectric (NFGP) plates resting on variable elastic foundations. The s...

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Published inInternational journal of mechanical system dynamics Vol. 5; no. 1; pp. 40 - 66
Main Authors Kumar, Pawan, Harsha, Suraj Prakash
Format Journal Article
LanguageEnglish
Published Nanjing John Wiley & Sons, Inc 01.03.2025
Subjects
Boundary conditions
Deformation analysis
Elastic foundations
Finite element method
Hamilton's principle
higher‐order finite element formulation
hygrothermal loading
Material properties
multidirectional material variations
nanofunctionally graded piezoelectric plate
Numerical analysis
Piezoelectricity
Plates
Porosity
porosity and variable elastic foundations
Quadrilaterals
Shear deformation
Smart structures
Stress concentration
Thickness ratio
Variable thickness
Vibration
Online AccessGet full text
ISSN2767-1399
2767-1402
2767-1402
DOI10.1002/msd2.70003

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Abstract ABSTRACT This research article introduces a high‐order finite element model based on the first‐order shear deformation theory to analyze the hygrothermal static responses of nanoscale, multidirectional nanofunctionally graded piezoelectric (NFGP) plates resting on variable elastic foundations. The study considers the material properties of these plates, which are governed by three distinct material laws—Power, Exponential, and Sigmoid as well as various patterns of porosity distribution. The derived governing equations are formulated using Hamilton's principle and incorporate nonlocal piezoelasticity theory, employing a nine‐node isoperimetric quadrilateral Lagrangian element capable of handling six degrees of freedom. A comprehensive parametric study is conducted, examining the influence of the small‐scale parameter, material exponent for multidirectional grading, variable foundation stiffness, porosity‐related exponent, thickness ratio, and the effects of hygrothermal and electrical loading on the NFGP plates, all while considering different boundary conditions. The findings provide valuable insights into the interaction between multidirectional graded smart structures and their foundations under varying hygrothermal and electromechanical conditions, which can significantly enhance the efficiency of designing and developing intelligent structures and systems.
AbstractList This research article introduces a high‐order finite element model based on the first‐order shear deformation theory to analyze the hygrothermal static responses of nanoscale, multidirectional nanofunctionally graded piezoelectric (NFGP) plates resting on variable elastic foundations. The study considers the material properties of these plates, which are governed by three distinct material laws—Power, Exponential, and Sigmoid as well as various patterns of porosity distribution. The derived governing equations are formulated using Hamilton's principle and incorporate nonlocal piezoelasticity theory, employing a nine‐node isoperimetric quadrilateral Lagrangian element capable of handling six degrees of freedom. A comprehensive parametric study is conducted, examining the influence of the small‐scale parameter, material exponent for multidirectional grading, variable foundation stiffness, porosity‐related exponent, thickness ratio, and the effects of hygrothermal and electrical loading on the NFGP plates, all while considering different boundary conditions. The findings provide valuable insights into the interaction between multidirectional graded smart structures and their foundations under varying hygrothermal and electromechanical conditions, which can significantly enhance the efficiency of designing and developing intelligent structures and systems.
ABSTRACT This research article introduces a high‐order finite element model based on the first‐order shear deformation theory to analyze the hygrothermal static responses of nanoscale, multidirectional nanofunctionally graded piezoelectric (NFGP) plates resting on variable elastic foundations. The study considers the material properties of these plates, which are governed by three distinct material laws—Power, Exponential, and Sigmoid as well as various patterns of porosity distribution. The derived governing equations are formulated using Hamilton's principle and incorporate nonlocal piezoelasticity theory, employing a nine‐node isoperimetric quadrilateral Lagrangian element capable of handling six degrees of freedom. A comprehensive parametric study is conducted, examining the influence of the small‐scale parameter, material exponent for multidirectional grading, variable foundation stiffness, porosity‐related exponent, thickness ratio, and the effects of hygrothermal and electrical loading on the NFGP plates, all while considering different boundary conditions. The findings provide valuable insights into the interaction between multidirectional graded smart structures and their foundations under varying hygrothermal and electromechanical conditions, which can significantly enhance the efficiency of designing and developing intelligent structures and systems.
ABSTRACT This research article introduces a high‐order finite element model based on the first‐order shear deformation theory to analyze the hygrothermal static responses of nanoscale, multidirectional nanofunctionally graded piezoelectric (NFGP) plates resting on variable elastic foundations. The study considers the material properties of these plates, which are governed by three distinct material laws—Power, Exponential, and Sigmoid as well as various patterns of porosity distribution. The derived governing equations are formulated using Hamilton's principle and incorporate nonlocal piezoelasticity theory, employing a nine‐node isoperimetric quadrilateral Lagrangian element capable of handling six degrees of freedom. A comprehensive parametric study is conducted, examining the influence of the small‐scale parameter, material exponent for multidirectional grading, variable foundation stiffness, porosity‐related exponent, thickness ratio, and the effects of hygrothermal and electrical loading on the NFGP plates, all while considering different boundary conditions. The findings provide valuable insights into the interaction between multidirectional graded smart structures and their foundations under varying hygrothermal and electromechanical conditions, which can significantly enhance the efficiency of designing and developing intelligent structures and systems.
Author Harsha, Suraj Prakash
Kumar, Pawan
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  start-page: 447
  issue: 4
  year: 2024
  ident: e_1_2_11_81_1
  article-title: Mechanical Behavior Analysis of FG‐CNTRC Porous Beams Resting on Winkler and Pasternak Elastic Foundations: A Finite Element Approach
  publication-title: Computers and Concrete
– ident: e_1_2_11_8_1
  doi: 10.1016/j.engstruct.2012.02.034
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Snippet ABSTRACT This research article introduces a high‐order finite element model based on the first‐order shear deformation theory to analyze the hygrothermal...
This research article introduces a high‐order finite element model based on the first‐order shear deformation theory to analyze the hygrothermal static...
ABSTRACT This research article introduces a high‐order finite element model based on the first‐order shear deformation theory to analyze the hygrothermal...
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SubjectTerms Boundary conditions
Deformation analysis
Elastic foundations
Finite element method
Hamilton's principle
higher‐order finite element formulation
hygrothermal loading
Material properties
multidirectional material variations
nanofunctionally graded piezoelectric plate
Numerical analysis
Piezoelectricity
Plates
Porosity
porosity and variable elastic foundations
Quadrilaterals
Shear deformation
Smart structures
Stress concentration
Thickness ratio
Variable thickness
Vibration
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Title Hygrothermal Static Bending and Deflection Responses of Porous Multidirectional Nanofunctionally Graded Piezoelectric (NFGP) Plates With Variable Thickness on Elastic Foundations
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