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Magnet - Magnetic and electric fields

Posted 2012年7月12日 GMT-4 08:39 Low-Frequency Electromagnetics, Studies & Solvers 5 Replies

John J
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Hi Jens,

I want to simulate this magnet (see attached file) and then see the effect of the induced magnetic field in a conducting disk that is situated under the magnet. I choose the magnetic and electric filds (mef) physics.
I have again the error message: singular matrix
Thanks in advance.
Have a nice day!

Regards.

John J

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5 Replies Last Post 2012年7月17日 GMT-4 01:33
Robert Koslover Certified Consultant
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Posted: 1 decade ago 2012年7月12日 GMT-4 12:59
This appears to be a continuation (or at least very similar) to your earlier post. In that earlier case, you received advice from Jens Krause to the effect that you should not normally be specifying an external current if all you have is a moving disk and fixed magnets. Did you follow that suggestion?
This appears to be a continuation (or at least very similar) to your earlier post. In that earlier case, you received advice from Jens Krause to the effect that you should not normally be specifying an external current if all you have is a moving disk and fixed magnets. Did you follow that suggestion?
John J
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Posted: 1 decade ago 2012年7月12日 GMT-4 13:37
Hi Robert,

Thank you for your response.

Yes, I followed his suggestion: In fact, I deleted the external current density and I get the same problem: singular matrix
My prblem is how to build in COMSOL the permanent magnets alternately magnatized (it is an NdFeB magnets) as shown in the attached file. it will be greatful if you help me.
Thank you!

Regards

John J
Hi Robert, Thank you for your response. Yes, I followed his suggestion: In fact, I deleted the external current density and I get the same problem: singular matrix My prblem is how to build in COMSOL the permanent magnets alternately magnatized (it is an NdFeB magnets) as shown in the attached file. it will be greatful if you help me. Thank you! Regards John J

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Ivar KJELBERG COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted: 1 decade ago 2012年7月15日 GMT-4 13:35
Hi

Why do you use MEF (which solves for the magnetic field and for V ?) isnt it enough with MF?.

As MF is far simpler to set up. in MEF you need to give some conduction to all materials (including air)and yo have far moe DoFs t solve. If you do not use any Eddy current analysis, use rather MF. For me you can set up the magnets by adding two amper law physics with magnetisation for the two pairs ofmagnets, such to polarise them correctly, or you can use a cylindrical coordinate and use a condition on the phi angle to get the correct sign of the magnet polarisation

--
Good luck
Ivar
Hi Why do you use MEF (which solves for the magnetic field and for V ?) isnt it enough with MF?. As MF is far simpler to set up. in MEF you need to give some conduction to all materials (including air)and yo have far moe DoFs t solve. If you do not use any Eddy current analysis, use rather MF. For me you can set up the magnets by adding two amper law physics with magnetisation for the two pairs ofmagnets, such to polarise them correctly, or you can use a cylindrical coordinate and use a condition on the phi angle to get the correct sign of the magnet polarisation -- Good luck Ivar
John J
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Posted: 1 decade ago 2012年7月16日 GMT-4 20:35
Thank you for your response Ivar,

Because I am working in eddy current anaysis so I must use MEF.
As, you have said, it is possible to set up a cylindrical coordinate and use a condition in the phi angle for the magnets's polarisation. It works for me, but the only problem is that the streamlines of the magnetic flux density are not totally guided by the Yoke? (see fig1 and fig2).
Thank you again Ivar.

Regards.
Thank you for your response Ivar, Because I am working in eddy current anaysis so I must use MEF. As, you have said, it is possible to set up a cylindrical coordinate and use a condition in the phi angle for the magnets's polarisation. It works for me, but the only problem is that the streamlines of the magnetic flux density are not totally guided by the Yoke? (see fig1 and fig2). Thank you again Ivar. Regards.

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Ivar KJELBERG COMSOL Multiphysics(r) fan, retired, former "Senior Expert" at CSEM SA (CH)
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Posted: 1 decade ago 2012年7月17日 GMT-4 01:33
Hi

you will always get some field outside your iron, check the streamline settings and use another rule for magnitude, in your image it might be that 90% of the field is still in the yoke

--
Good luck
Ivar
Hi you will always get some field outside your iron, check the streamline settings and use another rule for magnitude, in your image it might be that 90% of the field is still in the yoke -- Good luck Ivar

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