49. Dislocations Intersections Jogs and Kinks
Рет қаралды 7,535
Күн бұрынBasics of Mechanical Behavior of Materials
This video deals with
1. What are breaks on dislocation lines?
2. What are jogs and kinks?
3. Dislocations intersection to form Jogs and Kinks?
4. Movement of jogs
Addendum: @10:59, I made an error when I said the b1 screw dislocation slides downward; it actually moves in the opposite direction as the b2 screw dislocation. However, the remaining portions of the explanation are not impacted by this error, thus that is the only fix. FYI, dislocation always moves in the direction perpendicular to its tangent vector (irrespective of nature).
@sixy5195 2 ай бұрын
It was great, thanks for the clear explanation
@nigel3436 5 ай бұрын
tks i got it easily with ur lecture
@Dzevad75 Жыл бұрын
The presence of the Peierls barrier causes dislocations to tend to lie in low index directions at low temperatures. Where the dislocation locally leaves this direction a kink (in the glide plane) or jog is formed. These core defects can occur by geometric necessity, at thermal equilibrium, or by dislocation intersection.They can serve as charged defects in ionic crystals,important as extrinsic sources of charged point defects and of electronic defects. Kink concepts were used to describe low-temperature deformation (creep and internal friction) by double-kink nucleation and growth. Interestingly, these models have been found to give kinetic equations that also apply to the recently developed theory for soliton motion in one dimensional conductors and to crystal growth by ledge motion. Jogs are important as sites where dislocation climb occurs, the jogs acting as sites for local equilibration of vacancies (interstitials).
@nirajchawake Жыл бұрын
Thank you for your thoughtful and comprehensive comment. One of the best inputs I've ever received.
@sktechnologyandmaterialsci8774 Жыл бұрын
Such a nice explanation
@nirajchawake Жыл бұрын
Thanks for your kind words. Glad to know that it is useful.
@neerajdhandia7876 Жыл бұрын
Hi, Thank you for great lectures!! @10:59 you mention that b1 screw dislocation moves down, which is along the direction of burger vector and dislocation line. But we know that screw dislocation always moves perpendicular to the burger vector/dislocation line.
@nirajchawake Жыл бұрын
Hi Neeraj Many thanks for pointing this. @10:59, I made an error when I said the b1 screw dislocation slides downward; it actually moves in the opposite direction as the b2 screw dislocation. However, the remaining portions of the explanation are not impacted by this error, thus that is the only fix. FYI, dislocation always moves in the direction perpendicular to its tangent vector (irrespective of nature). I have added an addendum to the video.
@mianimran5985 Жыл бұрын
good explanation...
@nirajchawake Жыл бұрын
Thanks. Glad to know that it is useful.
@soumyadeeppradhan Жыл бұрын
@20:00 is t1 and b1 parallel or perpendicular?
@nirajchawake Жыл бұрын
It's a kink, so t1 || b1
@dabarmanashu8376 Жыл бұрын
@@nirajchawakesir but t1 is perpendicular to b1,sir see it once,because in deiter it is given
@shaymarom3222 Жыл бұрын
@@nirajchawake i agree with soumy, they are perpendicular to each other, not parallel. and baxed on that you determine if it is a jog or kink
@nirajchawake Жыл бұрын
You are right. There is an error while explaining it.
@soumyadeeppradhan Жыл бұрын
@@nirajchawake thank you sir for the clarification
@ankitprasad5382 9 ай бұрын
Bhaiya tell us something more about motion of kinked and joged dislocation:conservative and non-conservative
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