A comparison between finite element and finite difference explicit formulations for triangular and quadrilateral plane-strain elements

A least-squares approach is presented for implementing uniform strain triangular and tetrahedral ÿnite elements. The basis for the method is a weighted least-squares formulation in which a linear displacement ÿeld is ÿt to an element's nodal displacements. By including a greater number of nodes on t

For the groundwater flow problem (which corresponds to the Darcy flow model), we show how to produce a scheme with one unknown per element, starting from a mixed formulation discretized with the Raviart Thomas triangular elements of lowest order. The aim is here to obtain a new formulation with one

## Abstract A formulation for 36‐DOF assumed strain triangular solid shell element is developed for efficient analysis of plates and shells undergoing finite rotations. Higher order deformation modes described by the bubble function displacements are added to the assumed displacement field. The ass