Add to ORKGA new method for determining the shapes and sizes of magnets which produce the prescribed flux densities by using the finite element method has been developed. In this paper, the new technique is explained briefly, and then the finite element formulation for non-linear analysis is derived. Finally, the usefulness of the technique is shown by applying this method to the design of magnetic circuits.</p
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
In this paper, a parametrical method is developed to design a magnetic microactuator. The method is ...
A new method of determining the lengths of magnets in a magnetic circuit by using the finite element...
A new method for determining the shapes and sizes of magnets which produce the prescribed flux densi...
A new method for determining the shapes and sizes of magnets which produce the prescribed flux densi...
A new method of determining the lengths of magnets in a magnetic circuit by using the finite element...
A new method of determining the lengths of magnets in a magnetic circuit by using the finite element...
A new approximate method is developed for calculating three-dimensional magnetic fields in magnetic ...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
Abstract The finite element method (FEM) has shown its reliability when it deals with electromagneti...
Abstract: Accurate magnetic flux distributions are calculated in magnetic circuits via a subproblem ...
Abstract: Accurate magnetic flux distributions are calculated in magnetic circuits via a subproblem ...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
In this paper, a parametrical method is developed to design a magnetic microactuator. The method is ...
A new method of determining the lengths of magnets in a magnetic circuit by using the finite element...
A new method for determining the shapes and sizes of magnets which produce the prescribed flux densi...
A new method for determining the shapes and sizes of magnets which produce the prescribed flux densi...
A new method of determining the lengths of magnets in a magnetic circuit by using the finite element...
A new method of determining the lengths of magnets in a magnetic circuit by using the finite element...
A new approximate method is developed for calculating three-dimensional magnetic fields in magnetic ...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
Abstract The finite element method (FEM) has shown its reliability when it deals with electromagneti...
Abstract: Accurate magnetic flux distributions are calculated in magnetic circuits via a subproblem ...
Abstract: Accurate magnetic flux distributions are calculated in magnetic circuits via a subproblem ...
Covers the practical numerical method for the analysis and design of magnets Extensively covers th...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
A novel method for determining the sizes of iron parts in a magnetic circuit, which preserves the re...
In this paper, a parametrical method is developed to design a magnetic microactuator. The method is ...