Exploring the Composition of Grain Boundaries: Gas or Vacuum?

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In summary, the conversation discusses the composition of grain boundaries and whether they contain gas or vacuum. It is explained that at the atomic level, vacuum does not hold much significance and that grain boundaries are essentially the space between atoms. The weakness of grain boundaries is attributed to the mismatched lattice structure and the reliance on weak electrostatic forces rather than chemical bonds. This results in lower material strength than expected.
  • #1
pukb
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1
Hi
I want to know what is inside a grain boundary?
Is it a gas or vacuum
 
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  • #2
pukb said:
Hi
I want to know what is inside a grain boundary?
Is it a gas or vacuum
There could be gases, but it's essentially the same space that is between atoms - or the same space that exists between the nucleus and atomic electrons. At the atomic level, vacuum really doesn't mean anything.

The grain boundary areas are of course highly mis-matched.
 
  • #3
Ya vacuum doesn't mean anything at the molecular level. Because free space is every where. In fact even most of an atom is a "vacuum" / free space. So at the atomic level it's more important of thinking about relative energy levels / bonding forces.

A grain boundary is simply the region where two separate nucleation sites meet. The reason for the weakness here is that the lattice structure doesn't match up when the sites meet so there are few to no major chemical bonds in the region. This means that separate nucleation sites are largely kept together by weak electrostatic forces rather than chemical bonds. This is why material strength in practice is generally much weaker than that calculated from that assumed of a perfect lattice structure.
 

What are grain boundaries?

Grain boundaries are interfaces between individual grains in a polycrystalline material.

Why are grain boundaries important?

Grain boundaries play a crucial role in determining the mechanical, electrical, and chemical properties of materials. They can also affect the growth and structure of crystals, as well as the diffusion of atoms within a material.

How are grain boundaries formed?

Grain boundaries are formed during the solidification process when individual crystals grow and merge together. They can also form due to deformation or recrystallization processes.

What factors influence the properties of grain boundaries?

The properties of grain boundaries are influenced by factors such as their orientation, width, and crystallographic misorientation between adjacent grains. They can also be affected by impurities or defects within the boundary itself.

Can grain boundaries be manipulated or controlled?

Yes, grain boundaries can be manipulated through processes such as annealing, which can change the properties and structure of the boundary. They can also be controlled through the use of additives or specific processing techniques to minimize their negative effects on material properties.

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