A framework for the finite element implementation of the formulas of local and global electromagnetic forces is presented. The theoretical framework, based on the Lie derivative, is applicable to 2-D and 3-D problems in the presence of arbitrary materials. The numerical properties of the proposed implementation, in terms of accuracy and convergence, are analyzed. An experimental setup is also presented for which accurate measurements have been carried out, and that can serve as a benchmark for the implementation
Codes for the calculation of magnetic field distributions in two and three dimensions are now widely...
Requirements for a model to verify software for 3-D static force calculation are examined, and a 3-D...
Calculating the forces and moments in electromechanical systems requires as accurate as possible an ...
Today, three net magnetostatic loading force formulations are commonly used for finite-element-based...
A three dimensional finite element formulation and algorithm for the solution of 3-d magnetic fields...
A novel mesh-insensitive methodology for magnetic force computation is presented. The force value is...
Abstract. We present a finite-element based method for the computation of force fields, using the la...
International audienceIn this paper the authors show how the Maxwell stress tensor can be used, in p...
Analytical modeling is still a very effective manner to calculate the magnetic fields in permanent m...
The design of magnetic devices requires a precise estimation of magnetic forces. In previous works, ...
Abstract: In this paper there is performed a comparative study of the force that acts over a mobile ...
Team problem 2D is specially challenging to many field theory codes in that it seeks to determine th...
Electromagnetic force calculation is essential in the analysis and design of any electrical machine....
The main goal of this work is to investigation of the electromagnetic force in the electromagnetic b...
Abs t r a c t—We present an edge-element method (h-formulation) for the computation of force fields ...
Codes for the calculation of magnetic field distributions in two and three dimensions are now widely...
Requirements for a model to verify software for 3-D static force calculation are examined, and a 3-D...
Calculating the forces and moments in electromechanical systems requires as accurate as possible an ...
Today, three net magnetostatic loading force formulations are commonly used for finite-element-based...
A three dimensional finite element formulation and algorithm for the solution of 3-d magnetic fields...
A novel mesh-insensitive methodology for magnetic force computation is presented. The force value is...
Abstract. We present a finite-element based method for the computation of force fields, using the la...
International audienceIn this paper the authors show how the Maxwell stress tensor can be used, in p...
Analytical modeling is still a very effective manner to calculate the magnetic fields in permanent m...
The design of magnetic devices requires a precise estimation of magnetic forces. In previous works, ...
Abstract: In this paper there is performed a comparative study of the force that acts over a mobile ...
Team problem 2D is specially challenging to many field theory codes in that it seeks to determine th...
Electromagnetic force calculation is essential in the analysis and design of any electrical machine....
The main goal of this work is to investigation of the electromagnetic force in the electromagnetic b...
Abs t r a c t—We present an edge-element method (h-formulation) for the computation of force fields ...
Codes for the calculation of magnetic field distributions in two and three dimensions are now widely...
Requirements for a model to verify software for 3-D static force calculation are examined, and a 3-D...
Calculating the forces and moments in electromechanical systems requires as accurate as possible an ...