A recently developed modeling scheme for the numerical simulation of coupled electrostatic-mechanical systems such as electrostatic transducers is presented. The scheme allows the calculation of dynamic rigid motions as well as deformations of materials in an electric field. The coupled system, described by the equations governing the electric and mechanical field, is solved by a combined Finite-Element/Boundary-Element-Method (FEM-BEM). Computer simulations of a micropump and of an acceleration sensor are presented demonstrating the efficiency of the developed algorithm
In the design of micromechanical systems the coupling of several distinct physical subsystems has to...
A co-simulation tool based on finite element principles has been developed to solve coupled electros...
The paper presents the coupling between the finite element and the boundary element methods as an ef...
The applications of Boundary Element Method (BEM) are presented to simulate the electro-mechanical c...
In this paper, we present the applications of Boundary Element Method (BEM) to simulate the electro-...
The modeling of electromechanical problems is discussed. The simultaneous consideration of two disti...
Microelectromechanical systems (MEMS) combine high levels sensitivity and multifunctionality with sm...
The numerical simulation of nonlinear electro-elastostatics is considered in this work using the cou...
The numerical analysis of electromagnetic devices by means of finite element methods (FEM) is often ...
In this work the numerical simulation of nonlinear electro-elastostatics is considered with a specia...
A modeling procedure is proposed to handle strong electro-mechanical coupling appearing in micro-ele...
This paper concerns the modelling of the strong electro-mechanical coupling appearing in micro-elect...
The increased complexity and precision requirements of microelectromechanical systems(MEMS) have bro...
The aim of this paper is to deal with multi-physics simulation of micro-electro-mechanical systems (...
A co-simulation tool based on finite element principles has been developed to solve coupled electros...
In the design of micromechanical systems the coupling of several distinct physical subsystems has to...
A co-simulation tool based on finite element principles has been developed to solve coupled electros...
The paper presents the coupling between the finite element and the boundary element methods as an ef...
The applications of Boundary Element Method (BEM) are presented to simulate the electro-mechanical c...
In this paper, we present the applications of Boundary Element Method (BEM) to simulate the electro-...
The modeling of electromechanical problems is discussed. The simultaneous consideration of two disti...
Microelectromechanical systems (MEMS) combine high levels sensitivity and multifunctionality with sm...
The numerical simulation of nonlinear electro-elastostatics is considered in this work using the cou...
The numerical analysis of electromagnetic devices by means of finite element methods (FEM) is often ...
In this work the numerical simulation of nonlinear electro-elastostatics is considered with a specia...
A modeling procedure is proposed to handle strong electro-mechanical coupling appearing in micro-ele...
This paper concerns the modelling of the strong electro-mechanical coupling appearing in micro-elect...
The increased complexity and precision requirements of microelectromechanical systems(MEMS) have bro...
The aim of this paper is to deal with multi-physics simulation of micro-electro-mechanical systems (...
A co-simulation tool based on finite element principles has been developed to solve coupled electros...
In the design of micromechanical systems the coupling of several distinct physical subsystems has to...
A co-simulation tool based on finite element principles has been developed to solve coupled electros...
The paper presents the coupling between the finite element and the boundary element methods as an ef...