LISA — a European project for FEM-based limit and shakedown analysis

The shakedown theory and basic relations to develop an upper bound technique for the analysis of thin axisymmetric shells has been represented in Part 1 of this paper. Here numerical solutions consisting of the shakedown or limit load and the corresponding collapse mechanism are compared with other

This paper describes the theory and the fundamental relations for the development of a displacement formulation for the finite element shakedown and limit analysis of axi-symmetrical shells. The material is assumed to be elastic-perfectly plastic. The technique is developed based upon an upper bound

## Abstract In this paper, a methodology is proposed for expediting the coupled electro‐mechanical two‐dimensional finite element modeling of electrostatically actuated MEMS. The proposed methodology eliminates the need for repeated finite element meshing and subsequent electrostatic modeling of th

## Abstract The present paper describes an unconditionally stable algorithm to integrate the equations of motion in time. The standard FEM displacement model is employed to perform space discretization, and the time‐marching process is carried out through an algorithm based on the Green's function