Atomic Structure: "Long Range" and "Short Range" Translation

AI Thread Summary
The discussion centers around the concepts of atomic structure, particularly focusing on "slipping," "easy directions," and "slip systems" in materials science. The confusion arises around the terms "long range" and "short range" translations, which relate to how atoms move over close-packed planes. The movement of dislocations, which are defects in the atomic lattice, is crucial to understanding this process. Dislocations can glide along atomic planes or climb over obstacles, resulting in a zig-zag movement. This zig-zagging likely combines both gliding and climbing motions. Additionally, the terms may relate to stacking fault energies and how dislocation behavior differs in face-centered cubic (fcc) and body-centered cubic (bcc) metals. Understanding these concepts is essential for grasping the mechanics of atomic movement in materials.
tony_engin
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Hi everyone
I missed some content in my lecture about atomic structure of atoms.
In the lecture, the lecturer talked something about "slipping" , "easy directions" and "slip systems"...I don't really catch these stuff in this lecture. But I could find these in textbook. What makes me most confusing is "long range" and "short range" translation. I just recall that they are something about how an atom slip over a closest packed plane, and the lecturer throw out some "short range" and "long range" and finally said that it is some "zig-zag" movement for face-centered-cubic indeed...
something like this...Is there anyone know what is the content? Can you explain to me?
Really many thanks!
 
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I'm not sure I recall anything about "long range/short range traslations". Are you perhaps speaking of Burger's vectors ?

This thread belongs in Materials Science.
 
Slipping has to do with the motion of planes of atoms with respect to one another. This invovles the motion of dislocations (defects) in the lattice.

There are point defects and line defects.

Dislocations can 'glide' and 'climb'. The gliding is in the direction of the planes of atoms. A dislocation may climb (move perpendicular to the initial atomic plane) over an obstacle, such as an interstial atom, and then proceed on a path parallel to the original path.

Zig-zagging probably refers to a combination of 'glide' and 'climb'.
 
Your short / long range might have to do with stacking fault energies and the resulting characteristics of dislocation movement in different kind of lattices ? For example when you compare partial dislocation behavior in typical fcc and bcc metals.
 

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