On the formulation and evaluation of old and new efficient low order triangular plate bending elements with shear effects
From MaRDI portal
Publication:2666080
DOI10.1007/s00466-021-02020-6zbMath1483.74087OpenAlexW3162442502WikidataQ113326708 ScholiaQ113326708MaRDI QIDQ2666080
Irwan Katili, Jean-Louis Batoz, Eduard Antaluca
Publication date: 22 November 2021
Published in: Computational Mechanics (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/s00466-021-02020-6
shear forcepatch testedge effectmixed variational principletransverse shear strainHellinger-Reissner functionaltriangular plate bending element
Related Items
Three‐node assumed strain Mindlin plate finite elements ⋮ First-order VEM for Reissner-Mindlin plates
Cites Work
- Unnamed Item
- Unnamed Item
- A triangular thick plate finite element with an exact thin limit
- Mixed finite element methods - reduced and selective integration techniques: a unification of concepts
- Developments of Mindlin-Reissner plate elements
- An improved three‐node hybrid‐mixed element for Mindlin/Reissner plates
- An effective hybrid displacement function element method for solving the edge effect of Mindlin-Reissner plate
- Equivalence between mixed models and displacement models sing reduced integration
- A four-node plate bending element based on Mindlin/Reissner plate theory and a mixed interpolation
- A triangular element based on Reissner-Mindlin plate theory
- Plate bending elements with discrete constraints: New triangular elements
- Mixed-interpolated elements for Reissner-Mindlin plates
- An isostatic assumed stress triangular element for the Reissner–Mindlin plate-bending problem
- A robust triangular plate bending element of the Reissner-Mindlin type
- A new method for derivation of locking-free plate bending finite elements via mixed/hybrid formulation
- A mixed formulation ofC0-linear triangular plate/shell element—the role of edge shear constraints
- A discrete shear triangular nine D.O.F. element for the analysis of thick to very thin plates
- A study of three-node triangular plate bending elements
- Mixed formulation finite elements for mindlin theory plate bending
- Evaluation of a new quadrilateral thin plate bending element
- On a simple triangular reissner/mindlin plate element based on incompatible modes and discrete constraints
- Improvement of Plate and Shell Finite Elements by Mixed Formulations
- A new hybrid-mixed variational approach for Reissner-Mindlin plates. The MiSP model
- Linked interpolation for Reissner‐Mindlin plate elements: Part I—A simple quadrilateral
- Linked interpolation for Reissner‐Mindlin plate elements: Part II—A simple triangle
- An efficient quadrilateral element for plate bending analysis
- A new discrete Kirchhoff‐Mindlin element based on Mindlin‐Reissner plate theory and assumed shear strain fields—part I: An extended DKT element for thick‐plate bending analysis
- A new discrete Kirchhoff‐Mindlin element based on Mindlin–Reissner plate theory and assumed shear strain fields—part II: An extended DKQ element for thick‐plate bending analysis
- A mixed finite element formulation for Reissner–Mindlin plates based on the use of bubble functions
