An accurate hybrid macro-element with linear displacements

## Abstract The displacement model of the hybrid‐Trefftz finite element formulation is applied to the shape optimization of linear elastostatic problems. The model is based on the direct approximation of the displacements in the domain of the element and of the tractions on its boundary. The indepe

## Abstract In this paper, hybrid circuits with lumped elements, including a capacitor, inductor, and diode, are analyzed with the finite‐difference time‐domain (FDTD) method, and alternative algorithms for FDTD simulations of those elements are proposed, respectively. An integral formulation for t

The paper highlights the results of numerical experimentation with a geometrically non-linear formulation of a thick axisymmetric shell element involving non-axisymmetric deformation. The formulation itself has earlier been presented in the context of a non-linear local±global analysis of shells of

## Abstract A least‐squares mixed finite element method for linear elasticity, based on a stress‐displacement formulation, is investigated in terms of computational efficiency. For the stress approximation quadratic Raviart‐Thomas elements are used and these are coupled with the quadratic nonconfor