Numerical simulation of an electromagnetic actuator is performed. Distribution of magnetic field in the system is modeled by higher-order finite element method and effective implementation of Newton’s method. The force acting on the armature is subsequently computed using several methods and compared with experiment
The production of magnetic forces in a magnetic actuator is the focus of the present analysis. Magne...
V projektnem delu smo opisali delovanje linearnega elektromagnetnega aktuatorja, v nadaljevanju pa s...
At present, finite element method (FEM) is still the mainstream tool in a range of complex science a...
Purpose: The purpose of this paper is to investigate the accuracy of different force calculation met...
The coupling methods allow the use of two independent meshes for mobile and fixed armature within th...
Electromagnetic force calculation is essential in the analysis and design of any electrical machine....
Podano wyniki obliczeń siły elektromagnetycznej dla silnika liniowego oraz łożyska magnetycznego. Pr...
Design and optimization of an actuators based on magnetostrictive technology requires computation of...
In this paper the authors present and compare different methods to calculate the global force acting...
In this paper the authors show how the Maxwell stress tensor can be used, in practice, in order to d...
This work deals with the design and experimental verification of a DC linear electromagnetic actuato...
In this paper, a parametrical method is developed to design a magnetic microactuator. The method is ...
Magnetorheological materials based actuators have been currently exciting research topic for more th...
This paper presents the research on the influence of coil parameter on the force of DC electromagnet...
Today, three net magnetostatic loading force formulations are commonly used for finite-element-based...
The production of magnetic forces in a magnetic actuator is the focus of the present analysis. Magne...
V projektnem delu smo opisali delovanje linearnega elektromagnetnega aktuatorja, v nadaljevanju pa s...
At present, finite element method (FEM) is still the mainstream tool in a range of complex science a...
Purpose: The purpose of this paper is to investigate the accuracy of different force calculation met...
The coupling methods allow the use of two independent meshes for mobile and fixed armature within th...
Electromagnetic force calculation is essential in the analysis and design of any electrical machine....
Podano wyniki obliczeń siły elektromagnetycznej dla silnika liniowego oraz łożyska magnetycznego. Pr...
Design and optimization of an actuators based on magnetostrictive technology requires computation of...
In this paper the authors present and compare different methods to calculate the global force acting...
In this paper the authors show how the Maxwell stress tensor can be used, in practice, in order to d...
This work deals with the design and experimental verification of a DC linear electromagnetic actuato...
In this paper, a parametrical method is developed to design a magnetic microactuator. The method is ...
Magnetorheological materials based actuators have been currently exciting research topic for more th...
This paper presents the research on the influence of coil parameter on the force of DC electromagnet...
Today, three net magnetostatic loading force formulations are commonly used for finite-element-based...
The production of magnetic forces in a magnetic actuator is the focus of the present analysis. Magne...
V projektnem delu smo opisali delovanje linearnega elektromagnetnega aktuatorja, v nadaljevanju pa s...
At present, finite element method (FEM) is still the mainstream tool in a range of complex science a...