Enhanced Materials: Magnetic Enhancements

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In summary, the conversation discusses the possibility of superheating magnetically inclined materials in a strong magnetic field to enhance their capacitive, inductive, or flyback effect. The potential for these materials to become magnets and the differences in electrical properties between magnetized and non-magnetized forms are also mentioned. Additionally, the impact of molecular crystal orientation on conductivity and permittivity is brought up, specifically in the context of a copper foil roll with a grapheme coating. The conversation concludes with the suggestion that this orientation may improve the effectiveness of inductively transporting charge in a generator coil.
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iG3
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Can Magnetically inclined materials (possibly non magnetic) be superheated beyond their phase changing point while exposed in an intense magnetic field then while still under perhaps greater Mag field until cooled; affect atomic magnetic orientation and/or alignment of moments and spin throughout the material so as to enhance the and increase the capacitive, inductive, or flyback effect of say . . . a wire or sheet of the element or material.
 
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Liquid materials cooling in a strong magnetic field will have their magnetic properties in part determined by the field.
Most likely effect is that the material will become a magnet if it is normally partial to doing so.
Are the electrical properties of, say, magnetized iron, different from non-magnetized iron?
 
  • #3
Simon Bridge said:
Liquid materials cooling in a strong magnetic field will have their magnetic properties in part determined by the field.
Most likely effect is that the material will become a magnet if it is normally partial to doing so.
Are the electrical properties of, say, magnetized iron, different from non-magnetized iron?
I understand what you are saying. I am looking to behavior in the material which goes beyond its magnetism. Oriented grapheme for example will conduct better if it is oriented rather than not. Perhaps this is not exclusive to diamagnetic materials. Transformer wire and silicon-steels are made with molecular crystal orientation for differences in conductivity/permittivity of electricity and/or magnetic fields.IE:> Say a copper foil roll which is magnetically oriented at 90 degrees to the magnetic orientation of the grapheme coating on its surface. would it be more effective at inductively transporting charge in a generator coil?
 
  • #4
Great - then you have your answer.
 

FAQ: Enhanced Materials: Magnetic Enhancements

What are enhanced materials?

Enhanced materials are materials that have been modified to possess specific properties or qualities that are not naturally present in the material. This can be achieved through various methods such as adding additional elements, altering the structure of the material, or applying external forces.

How do magnetic enhancements work?

Magnetic enhancements involve modifying the properties of a material to make it more responsive to magnetic fields. This can be done by adding magnetic elements to the material or by altering its structure to increase its magnetic susceptibility.

What are the benefits of using magnetic enhancements in materials?

Magnetic enhancements can provide a range of benefits depending on the specific application. Some common advantages include increased strength, improved energy efficiency, and enhanced control over the material's properties. They are commonly used in industries such as transportation, energy, and electronics.

What types of materials can be enhanced with magnetic properties?

Most materials can be enhanced with magnetic properties, including metals, ceramics, and polymers. However, the effectiveness of the enhancement may vary depending on the specific material and the method used to enhance it.

Are there any potential drawbacks to using magnetic enhancements in materials?

While magnetic enhancements can provide many benefits, there are some potential drawbacks to consider. These may include increased costs, potential environmental impacts, and limitations in certain applications. It is important to carefully evaluate the trade-offs before implementing magnetic enhancements in materials.

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