Add to ORKGA novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the requirement of prescribed flux densities, has been developed. In order to take into account the nonlinear characteristics of iron, the magnetization integral equation method is used in the analysis. The effectiveness of the method is examined by applying it to the pole shape of an electromagnet. The developed software was verified by comparing calculated results with measured ones</p
We present a novel numerical approach to design testing functions for the magnetic-field integral eq...
A magnetization-based formulation of the volume integral equations method for 3-D magnetostatics is ...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
A new method for determining the shapes and sizes of magnets which produce the prescribed flux densi...
A new approximate method is developed for calculating three-dimensional magnetic fields in magnetic ...
In this paper, the three dimensional finite element method previously presented by these authors is ...
A new method of determining the lengths of magnets in a magnetic circuit by using the finite element...
International audienceWe propose an optimization method to design an elongated three-axes magnetic f...
© Emerald Publishing Limited. Purpose - The purpose of this paper is to show that constructing magne...
A fast Newton-Raphson technique (FNR) for the determination of nonlinear three dimensional finite el...
Technology offered by Carlos III of Madrid University, Spain. It allows increasing the optimization ...
This paper presents a methodology to study nonlinear electromagnetic phenomena inside ferromagnetic ...
This paper presents a methodology to study nonlinear electromagnetic phenomena inside ferromagnetic ...
Two methods of accounting for magnetic saturation in nonlinear three dimensional magnetic field prob...
We present a novel numerical approach to design testing functions for the magnetic-field integral eq...
A magnetization-based formulation of the volume integral equations method for 3-D magnetostatics is ...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
A new method for determining the shapes and sizes of magnets which produce the prescribed flux densi...
A new approximate method is developed for calculating three-dimensional magnetic fields in magnetic ...
In this paper, the three dimensional finite element method previously presented by these authors is ...
A new method of determining the lengths of magnets in a magnetic circuit by using the finite element...
International audienceWe propose an optimization method to design an elongated three-axes magnetic f...
© Emerald Publishing Limited. Purpose - The purpose of this paper is to show that constructing magne...
A fast Newton-Raphson technique (FNR) for the determination of nonlinear three dimensional finite el...
Technology offered by Carlos III of Madrid University, Spain. It allows increasing the optimization ...
This paper presents a methodology to study nonlinear electromagnetic phenomena inside ferromagnetic ...
This paper presents a methodology to study nonlinear electromagnetic phenomena inside ferromagnetic ...
Two methods of accounting for magnetic saturation in nonlinear three dimensional magnetic field prob...
We present a novel numerical approach to design testing functions for the magnetic-field integral eq...
A magnetization-based formulation of the volume integral equations method for 3-D magnetostatics is ...
The authors present a novel nonlinear homogenization technique for laminated iron cores in three-dim...