A study of optimal membrane triangles with drilling freedoms.

On the choice of the linear element for corotational triangular shells ⋮ A triangular finite element with local remeshing for the large strain analysis of axisymmetric solids ⋮ Formulating an effective generalized four-sided element ⋮ Mass matrix templates: general description and 1D examples ⋮ Geometrically nonlinear analysis of shell structures using a flat triangular shell finite element ⋮ A `FE-meshfree' TRIA3 element based on partition of unity for linear and geometry nonlinear analyses ⋮ Accelerating the convergence of AFETI partitioned analysis of heterogeneous structural dynamical systems ⋮ Review of the strain-based formulation for analysis of plane structures Part I: Formulation of basics and the existing elements ⋮ Review of the strain-based formulation for analysis of plane structures Part II: Evaluation of the numerical performance ⋮ A solid-shell corotational element based on ANDES, ANS and EAS for geometrically nonlinear structural analysis ⋮ Polar decomposition based corotational framework for triangular shell elements with distributed loads ⋮ Exact corotational shell for finite strains and fracture ⋮ Corotational Formulation for Geometric Nonlinear Analysis of Shell Structures by ANDES Elements ⋮ A corotational flat triangular element for large strain analysis of thin shells with application to soft biological tissues ⋮ A new SMA shell element based on the corotational formulation ⋮ The MITC3+ shell element enriched in membrane displacements by interpolation covers ⋮ Quasi-quadratic elements for nonlinear compressible and incompressible elasticity ⋮ An embedded finite element framework for the resolution of strongly coupled fluid-structure interaction problems. Application to volumetric and membrane-like structures ⋮ Combining the modified discrete element method with the virtual element method for fracturing of porous media ⋮ Supernatural QUAD4: a template formulation ⋮ An efficient flat shell element ⋮ Combined co-rotational beam/shell elements for fluid-structure interaction analysis of insect-like flapping wing ⋮ A compendium of FEM integration formulas for symbolic work ⋮ A novel Galerkin-like weakform and a superconvergent alpha finite element method (S\(\alpha \)FEM) for mechanics problems using triangular meshes ⋮ A modified corotational framework for triangular shell elements ⋮ Rotation vector and its complement parameterization for singularity-free corotational shell element formulations ⋮ A unified formulation of small-strain corotational finite elements. I: Theory ⋮ A 3-node flat triangular shell element with corner drilling freedoms and transverse shear correction

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• Sequence transformations and their applications
• A triangular membrane element with rotational degrees of freedom
• A triangular bending element based on an energy-orthogonal free formulation
• Membrane triangles with corner drilling freedoms. I: The EFF element
• Membrane triangles with corner drilling freedoms. II: The ANDES element
• Membrane triangles with corner drilling freedoms. III: Implementation and performance evaluation
• Construction of optimal 3-node plate bending triangles by templates
• Application of a three-field nonlinear fluid-structure formulation to the prediction of the aeroelastic parameters of an F-16 fighter
• A survey of parametrized variational principles and applications to computational mechanics
• Customizing the mass and geometric stiffness of plane beam elements by Fourier methods
• Displacement and equilibrium models in the finite element method by B. Fraeijs de Veubeke, Chapter 9, Pages 145–197 of Stress Analysis, Edited by O. C. Zienkiewicz and G. S. Holister, Published by John Wiley & Sons, 1965
• The Extended Free Formulation of Finite Elements in Linear Elasticity
• A compatible triangular element including vertex rotations for plane elasticity analysis
• Finite elements with increased freedom in choosing shape functions
• A Curved C0 Shell Element Based on Assumed Natural-Coordinate Strains
• Parametrized multifield variational principles in elasticity: I. Mixed functionals
• Evaluation of the constant strain triangle with drilling rotations
• Finite elements based on energy orthogonal functions
• A non-conforming element for stress analysis
• Ways to improve the bending response of finite elements
• From the individual element test to finite element templates: Evolution of the patch test