Does Magnetization Decrease Clockwise in a Ferromagnetic Hysteresis Loop?

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SUMMARY

The discussion centers on the behavior of magnetization (M) in ferromagnetic materials during the hysteresis loop, specifically addressing whether M decreases clockwise when the magnetic field is reduced. It confirms that M does indeed decrease in this manner. To return a ferromagnetic material to its initial state (H=0, M=0), the common method employed is degaussing, which utilizes damped oscillatory magnetic excitation to alternately magnetize the material in opposing directions, gradually reducing the magnetization.

PREREQUISITES
  • Understanding of ferromagnetic materials and hysteresis loops
  • Knowledge of magnetization (M) and magnetic field strength (H)
  • Familiarity with the concept of degaussing
  • Basic principles of magnetic excitation techniques
NEXT STEPS
  • Research the principles of ferromagnetic hysteresis loops in detail
  • Learn about the degaussing process and its applications in various industries
  • Explore the effects of temperature on the magnetic properties of ferromagnetic materials
  • Investigate alternative methods for demagnetizing materials beyond degaussing
USEFUL FOR

Physicists, materials scientists, and engineers working with magnetic materials, as well as anyone involved in applications requiring demagnetization techniques.

jackychenp
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For a ferromagnetic material in the hysteresis loop, when increasing field from H=Hc, its magnetization (M) will saturate. But if we decrease field instead, will M decreases clockwise according to the loop?

How can we make the ferromagnetic material back into the initial state (H=0, M=0)? One way is to go through TN, but some material's TN is very high. Is there any other practical method?
 
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jackychenp said:
For a ferromagnetic material in the hysteresis loop, when increasing field from H=Hc, its magnetization (M) will saturate. But if we decrease field instead, will M decreases clockwise according to the loop?

How can we make the ferromagnetic material back into the initial state (H=0, M=0)? One way is to go through TN, but some material's TN is very high. Is there any other practical method?

I'm not sure about your first question, but for the 2nd paragraph, it is common to use a "degaussing" technique to remove the residual magnetization. Degaussing uses a damped oscillatory magnetic excitation to alternately magnetize the material in opposite directions, but with a decreasing magnitude on each excursion:

http://en.wikipedia.org/wiki/Degaussing

.
 
Last edited:
Thanks.

berkeman said:
I'm not sure about your first question, but for the 2nd paragraph, it is common to use a "degaussing" technique to remove the residual magnetization. Degaussing uses a damped oscillatory magnetic excitation to alternately magnetize the material in opposite directions, but with a decreasing magnitude on each excursion:

http://en.wikipedia.org/wiki/Degaussing

.
 
Last edited by a moderator:

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