A methodology for fast finite element modeling of electrostatically actuated MEMS

## 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

A coupled finite element and boundary element method is developed to predict the magnetic vector and scalar potential distributions in the droplets levitated in an alternating magnetic or electrostatic field. The computational algorithm entails the application of boundary elements in the region of f

In this paper we give a numerical method based on ®nite element discretizations to simulate the thermoelectrical behaviour of electrodes for electric reduction furnaces. After introducing the mathematical model we take advantage of the cylindrical symmetry of the problem to compute boundary conditio

Skeletal muscles are the primary unit for the movement of the human body, they serve as shock absorber and protect the skeleton system against external loads. By maintaining a certain force level, muscle show fatigue effects, expressed by a decrease of the retentive force. To incorporate such effect