Question on inductance with magnetic material core.

AI Thread Summary
Magnetization significantly increases the permeability (μ) of a magnetic material core, leading to higher inductance in inductors. The relationship between magnetization and inductance is non-linear; as magnetization increases, inductance also increases until saturation is approached, at which point permeability decreases. Placing a magnet near an iron core inductor can enhance its inductance by inducing magnetism in the core. For further study, recommended reading includes texts on electromagnetic fields and resources from manufacturers specializing in magnetic materials. Understanding these principles is essential for optimizing inductance in magnetic core applications.
yungman
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Is there a difference in inductance of an inductance with magnetic material whether it is magnetized or not. Meaning is there an increase of inductance if the core has been magnetized ( become magnet) vs the same material but not magnetized?

Does magnetization increase the \mu of the material?
 
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Yes.
 
cabraham said:
Yes.

So the stronger the magnetization, the higher the \mu? How much difference.

Is it true that if I have an inductor with a iron core. I can increase the inductance by putting a magnet near it to induce magnetism onto the core? And the stronger the induction, the higher the inductance.

Can someone point me to reading materials in this subject?

Thanks

Alan
 
Near the origin is "hard magnetization". As the winding current increases, the flux increases non-linearly since mu increases. Then mu is roughly constant as amp-turns increase & flux increases linearly. This region is "easy magnetization". Then as the saturation flux density value is approached, mu decreases. THe curve, known as the "B-H loop" is non-linear.

For reading materials, any good e/m fields text is recommended. Kraus & Carver, Griffiths, Hayt, are 3 that come to mind, but there are others as well. Also, makers of xfmr & inductor core material like Philips magnetics, Arnold Engr., Magnetics Inc., are good resources. They know magnetic materials better than anybody. That should get you started.

Claude
 

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