To understand it is our task. That is why our development department occupies such an important position in our company. To create optimized magnet solutions, it is essential to call on experts from the very beginning. That is also why we consider ourselves as consultants rather than salespeople. To help us implement our product ideas, we can call on experienced specialists in the fields of both development and application. Together with them, we define and implement all the technical boundary conditions. The most important concerns here are the optimization of the geometry, the material and the mechanical requirements. However, great attention is also paid to other aspects such as assembly, handling and machine processing-compatible packaging.
When performing simulations, we use the following computational methods as standard:
Configuration of magnetic circuits
We use traditional (analogue) procedures to design closed magnetic circuits which we then optimize in accordance with freely definable criteria.
Field calculations
We use numerical 2 and 3-dimensional procedures (finite element method, linear and non-linear, static) to calculate magnetic fields and optimize their configuration.
MFOS (magnetic flow orientation simulation)
Using this procedure which we developed in-house, it is possible to transfer the data from field calculations for injection molding tools directly to the field calculations for injection molded magnets. In this way, we are able to optimize the field distribution of multipolar rings for special sensors or motor applications (sinusoidal or rectangular surface induction plot etc.)
Customized hybrid materials
A European consortium in which we participated investigated the interaction of multiple magnetic components. Our contribution: An algorithm for the computation of the magnetic properties of multi-component systems (hybrid materials).
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