A study of quadrilateral plate bending elements with ‘reduced’ integration

A triangular bending element based on an energy-orthogonal free formulation, Meshfree analysis and design sensitivity analysis for shell structures, A modified representation of transverse shear in \(C^ 0\) quadrilateral plate elements, A sixteen node shell element with a matrix stabilization scheme, A Smoothed GFEM Based on Taylor Expansion and Constrained MLS for Analysis of Reissner–Mindlin Plate, Reduced minimization of product and non-product type in Mindlin plate elements, Refined non-conforming quadrilateral thin plate bending element, Analysis of plates and shells using an edge-based smoothed finite element method, Refined quadrilateral discrete Kirchhoff thin plate bending element, Developments of Mindlin-Reissner plate elements, The \(C^ 0\) shell plate and beam elements freed from their deficiencies, Element free analyses of shell and spatial structures, MITC finite elements for laminated composite plates, A critical survey of the 9-node degenerated shell element with special emphasis on thin shell application and reduced integration, Embedded kinematic boundary conditions for thin plate bending by Nitsche's approach, Shell finite elements with different through-the-thickness kinematics for the linear analysis of cylindrical multilayered structures, Higher-order hybrid stress triangular Mindlin plate element, Discretization by finite elements of a model parameter dependent problem, Buckling analysis of Reissner-Mindlin plates subjected to in-plane edge loads using a shear-locking-free and meshfree method, Nonlinear finite element analysis of shells. I. Three-dimensional shells, Convergence of trigonometric and finite-difference discretization schemes for FFT-based computational micromechanics, Large displacements of shells including material nonlinearities, Generalized mixed variational principles and solutions of ill-conditioned problems in computational mechanics. II: Shear locking., Large deflection and post-buckling analysis of shell structures, Development of a new curved beam element with shear effect, Large‐strain elasto‐plastic shell analysis using low‐order elements, A finite circular arch element based on trigonometric shape functions, Hierarchic finite elements with selective and uniform reduced integration for Reissner-Mindlin plates, A refined higher-order hybrid stress quadrilateral element for free vibration and buckling analyses of Reissner-Mindlin plates, A new and simple locking-free triangular thick plate element using independent shear degrees of freedom, On the robustness of hierarchic finite elements for Reissner--Mindlin plates, A functional for shells of arbitrary geometry and a mixed finite element method for parabolic and circular cylindrical shells, Hierarchic finite elements for moderately thick to very thin plates, Theories and finite elements for multilayered anisotropic, composite plates and shells., Refined 9‐Dof triangular Mindlin plate elements, The best of the enhanced displacement nonconforming plate/shell elements, Locking-free stabilized conforming nodal integration for meshfree Mindlin--Reissner plate formulation, Equivalence between mixed models and displacement models sing reduced integration, A six-node finite element for plate bending, Classical, higher-order, zig-zag and variable kinematic shell elements for the analysis of composite multilayered structures, Finite element analysis of incompressible viscous flows by the penalty function formulation, Explanation and elimination of shear locking and membrane locking with field consistence approach, On the mixed formulation of a 9-node Lagrange shell element, Predicting and avoiding shear locking in beam vibration problems using the B-spline field approximation method, A priori identification of shear locking and stiffening in triangular Mindlin elements, An alternative approach for modal analysis of stiffened thin-walled structures with advanced plate elements, A four-noded thin-plate bending element using shear constraints - A modified version of Lyons' element, A three-node Mindlin plate element with improved transverse shear, A Mindlin element for thick and deep shells, The four-node \(C^ 0\) Mindlin plate bending element reformulated. I: Formulation. II: Verification, A symbolic Fourier synthesis of a one-point integrated quadrilateral plate element, A Kirchhoff-mode method for \(C^ 0\) bilinear and Serendipity plate elements