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Thin Isolation Layer in In-plane 2D-Axisymmetric Model
Posted 27 ott 2022, 08:17 GMT-4 Electromagnetics, Physics Interfaces Version 6.0 2 Replies
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Hello, I am currently looking into modeling a soft-magnetic toroid using the "Magnetic and Electric Fields" interface in 2D Axisymmetric space.
In order to magnetize the toroid I use a Surface Current and, therefore, solve for the In-plane vector potential (Three-component vector potential would also work but does not change the solution or problem in a meaningful manner). This model works fine for both stationary and frequency domain studies but leads to a problem I have yet to solve: The main point of the simulation is to introduce thin (air-)gaps inside of the toroid in order to study their effects. I tried this using a number of methods such as a Thin Low Permeability Gap, Magnetic Shielding, Magnetic Insulation, Impedance Boundary Condition and Transition Boundary Condition but none of them had the effect I was looking for and many of them had no significant effect at all with the magnetic flux density and the current density being mostly unchanged.
Attached is the model with the thin layer splitting the toroid in half but with no condition applied at the moment.
Is there some other way such a thin layer can be modeled or a setting in the physics interface I need to change?
Best Regards.
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