Metal or Insulator: Examining Resistance in Multiple Directions

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SUMMARY

The discussion centers on the anisotropic electrical resistance of materials, particularly in the context of metals and insulators. It is established that materials can exhibit different resistive properties in different directions; for example, cuprate superconductors demonstrate metallic behavior in the a-b plane while behaving like insulators along the c-axis. The conversation also highlights the behavior of graphite, which shows higher resistivity in the c direction compared to the a-b plane. The implications of these properties are significant for applications such as laminated core transformers, where materials are designed to minimize eddy current losses.

PREREQUISITES
  • Anisotropic electrical resistance
  • Cuprate superconductors
  • Graphite resistivity characteristics
  • Laminated core transformer design
NEXT STEPS
  • Research the properties of anisotropic materials in electrical applications
  • Study the temperature dependence of resistance in cuprate superconductors
  • Examine the role of non-conducting varnish in laminated core transformers
  • Explore the electrical behavior of layered materials like graphite
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Materials scientists, electrical engineers, and researchers focused on anisotropic materials and their applications in electronics and energy systems.

howl
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Generally, a material is metal or insulator is simply determined by the gap. But if we view it in another way, to measure the resistance in different direction, says x and y, and there are usually different. And then measure the resistance change with temperature. Usually, the resistances goes up with temperature increases is metal, while resistances goes down is insulator, or semiconductor. If one finds that a material in x direction looks like metal in this resistance experimental, while in y no, is this situation possible? If so, could we say this material is metal just in x direction?
 
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howl said:
Generally, a material is metal or insulator is simply determined by the gap. But if we view it in another way, to measure the resistance in different direction, says x and y, and there are usually different. And then measure the resistance change with temperature. Usually, the resistances goes up with temperature increases is metal, while resistances goes down is insulator, or semiconductor. If one finds that a material in x direction looks like metal in this resistance experimental, while in y no, is this situation possible? If so, could we say this material is metal just in x direction?
We use such material in laminated core transformers. The metal laminations are separated by non-conducting varnish. This is used to limit eddy current losses in the core:

https://qph.fs.quoracdn.net/main-qimg-99d6364e32355e6c00ab138131eeb3c5

main-qimg-99d6364e32355e6c00ab138131eeb3c5.gif
 

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howl said:
Generally, a material is metal or insulator is simply determined by the gap. But if we view it in another way, to measure the resistance in different direction, says x and y, and there are usually different. And then measure the resistance change with temperature. Usually, the resistances goes up with temperature increases is metal, while resistances goes down is insulator, or semiconductor. If one finds that a material in x direction looks like metal in this resistance experimental, while in y no, is this situation possible? If so, could we say this material is metal just in x direction?

The cuprate superconductors are made up of layers of different atoms and molecules.

HTS_crystal_structures.jpg


Along the so-called [a,b] plane where the Cu-O planes lie, it is very conducting, almost like a typical metal. Along the c-axis (vertical direction), the resistivity can be several orders of magnitude higher, and often considered to be insulating.

There are many layered materials that behave this way, so it isn't that exotic anymore.

Zz.
 

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As far as I know graphite is such a material. Its resistivity is much higher in the c direction than in the a-b plane. I do not know about its metallicity though.
 
Thanks for your answers!
I know that there is anisotropy in many materials, what I want to know is when temperature goes up, resistance in x increases, while y no, is it usual?
 

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