Hybrid‐Trefftz stress elements for plate bending

Summary The hybrid‐Trefftz stress element is used to emulate conventional finite elements for analysis of Kirchhoff and Mindlin‐Reissner plate bending problems. The element is hybrid because it is based on the independent approximation of the stress‐resultant and boundary displacement fields. The Tr...

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Published inInternational journal for numerical methods in engineering Vol. 121; no. 9; pp. 1946 - 1976
Main Authors Teixeira de Freitas, João António, Tiago, Carlos
Format Journal Article
LanguageEnglish
Published Hoboken, USA John Wiley & Sons, Inc 15.05.2020
Wiley Subscription Services, Inc
Subjects
Approximation
Bending
classification of finite element formulations
emulation of conform finite elements
Euler-Lagrange equation
Finite element method
hybrid‐Trefftz finite elements
Interpolation
Kirchhoff and Mindlin‐Reissner plate bending
Locking
Mathematical analysis
Mindlin plates
Quadrilaterals
singular stress fields
Online AccessGet full text
ISSN0029-5981
1097-0207
DOI10.1002/nme.6294

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Abstract Summary The hybrid‐Trefftz stress element is used to emulate conventional finite elements for analysis of Kirchhoff and Mindlin‐Reissner plate bending problems. The element is hybrid because it is based on the independent approximation of the stress‐resultant and boundary displacement fields. The Trefftz variant is consequent on the use of the formal solutions of the governing Lagrange equation to approximate the stress‐resultant field. In order to emulate conventional elements, nodal functions are used to approximate the displacements on the boundary of the element. Duality is used to set up the element solving system. The associated variational statements and conditions for existence and uniqueness of solutions are recovered. Triangular and quadrilateral elements are tested and characterized in terms of convergence, sensitivity to shear‐locking, and shape distortion. Their relative performance is assessed using assumed strain Mixed Interpolation of Tensorial Components (MITC) elements and recently proposed Trefftz‐based elements. This relative assessment is extended to a hypersingular problem to illustrate the effect of enriching the domain and boundary approximation bases.
AbstractList Summary The hybrid‐Trefftz stress element is used to emulate conventional finite elements for analysis of Kirchhoff and Mindlin‐Reissner plate bending problems. The element is hybrid because it is based on the independent approximation of the stress‐resultant and boundary displacement fields. The Trefftz variant is consequent on the use of the formal solutions of the governing Lagrange equation to approximate the stress‐resultant field. In order to emulate conventional elements, nodal functions are used to approximate the displacements on the boundary of the element. Duality is used to set up the element solving system. The associated variational statements and conditions for existence and uniqueness of solutions are recovered. Triangular and quadrilateral elements are tested and characterized in terms of convergence, sensitivity to shear‐locking, and shape distortion. Their relative performance is assessed using assumed strain Mixed Interpolation of Tensorial Components (MITC) elements and recently proposed Trefftz‐based elements. This relative assessment is extended to a hypersingular problem to illustrate the effect of enriching the domain and boundary approximation bases.
The hybrid‐Trefftz stress element is used to emulate conventional finite elements for analysis of Kirchhoff and Mindlin‐Reissner plate bending problems. The element is hybrid because it is based on the independent approximation of the stress‐resultant and boundary displacement fields. The Trefftz variant is consequent on the use of the formal solutions of the governing Lagrange equation to approximate the stress‐resultant field. In order to emulate conventional elements, nodal functions are used to approximate the displacements on the boundary of the element. Duality is used to set up the element solving system. The associated variational statements and conditions for existence and uniqueness of solutions are recovered. Triangular and quadrilateral elements are tested and characterized in terms of convergence, sensitivity to shear‐locking, and shape distortion. Their relative performance is assessed using assumed strain Mixed Interpolation of Tensorial Components (MITC) elements and recently proposed Trefftz‐based elements. This relative assessment is extended to a hypersingular problem to illustrate the effect of enriching the domain and boundary approximation bases.
Author Teixeira de Freitas, João António
Tiago, Carlos
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2020 John Wiley & Sons, Ltd.
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Snippet Summary The hybrid‐Trefftz stress element is used to emulate conventional finite elements for analysis of Kirchhoff and Mindlin‐Reissner plate bending...
The hybrid‐Trefftz stress element is used to emulate conventional finite elements for analysis of Kirchhoff and Mindlin‐Reissner plate bending problems. The...
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StartPage 1946
SubjectTerms Approximation
Bending
classification of finite element formulations
emulation of conform finite elements
Euler-Lagrange equation
Finite element method
hybrid‐Trefftz finite elements
Interpolation
Kirchhoff and Mindlin‐Reissner plate bending
Locking
Mathematical analysis
Mindlin plates
Quadrilaterals
singular stress fields
Title Hybrid‐Trefftz stress elements for plate bending
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Fnme.6294
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