Understanding Magnetic Shielding - Is This Correct?

In summary, the concept of magnetic permeability refers to the ease at which a magnetic field can pass through a material. This means that using a highly permeable material, such as steel or aluminium, to shield against external magnetic fields would cause the magnetic field to prefer to pass through the material instead of through the container itself. This would result in the magnetic field inside the container remaining unchanged by external sources. A website that may provide further information on this topic is Magnetic Shield Corporation's website, which offers products for applications involving magnetic fields. Overall, the concept of magnetic permeability is important in understanding how magnetic fields interact with different materials.
  • #1
Treborman
6
0
I'm struggling to get my head around this concept.

As far as I know, magnetic permeability is a measure of the ease at which a magnetic field passes through a body. So if I used a highly magnetic permeable material (steel, aluminium) for a container to shield against external magnetic fields, the magnetic field would prefer, for want of a better word, to pass through the container's walls than through the container itself, and thus the magnetic field inside the container will not be changed from external sources.

Is this correct?
 
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  • #2
Yes, that is correct. Maybe this website will also be of some help -- we use Magnetic Shield Corporation's products in some of our applications:

http://www.magnetic-shield.com/dynamics/index.html
 
  • #3
Thanks for your help! Much appreciated! :smile:
 

1. What is magnetic shielding?

Magnetic shielding is the process of using materials to create a barrier that blocks or reduces the magnetic field in a certain area. This can be used to protect sensitive equipment or living organisms from the effects of strong magnetic fields.

2. How does magnetic shielding work?

Magnetic shielding works by using materials with high permeability, such as iron or steel, to create a magnetic field that counters the external magnetic field. This creates a region of low magnetic field intensity within the shielded area.

3. What are the different types of magnetic shielding?

There are two main types of magnetic shielding: passive and active. Passive shielding uses materials to create a physical barrier, while active shielding uses electrical currents to counter the external magnetic field.

4. What are the applications of magnetic shielding?

Magnetic shielding has a variety of applications in different fields. It is commonly used in medical imaging equipment, such as MRI machines, to protect patients from the strong magnetic fields. It is also used in electronic devices to prevent interference from external magnetic fields.

5. Is magnetic shielding 100% effective?

No, magnetic shielding is not 100% effective. The amount of shielding achieved depends on the strength of the external magnetic field, the materials used for shielding, and the design of the shield. It is important to carefully evaluate and test the shielding effectiveness for specific applications.

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