Screw dislocation displacement discontinouty

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The discussion centers on the behavior of screw dislocations, specifically the discontinuity in the displacement field across the dislocation surface, where displacement jumps from 0 to b. Despite this discontinuity, the strain field remains continuous due to the nature of the continuum model, which allows for a smooth transition in strain even with a step change in displacement. The arctangent function is highlighted as a multivalued function, contributing to the observed displacement discontinuity. It is noted that the displacement field can be viewed as a combination of continuous elastic displacement and discontinuous plastic deformation, with the latter accounting for the observed jump. Overall, the relationship between displacement and strain in the context of dislocations illustrates the complexities of continuum mechanics in material science.
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Consider a screw dislocation,

8In15.png


The displacement field is given by

1631548841872.png

And the strain field is derived by
1631548853028.png

My question is that the displacement seems discontinuous across the dislocation surface (y=0, i.e., displacement jump from 0 to b), so why it is still differentiable on the surface and why the strain is continuous across the dislocation surface?
 
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This is a continuum model and the arctangent is not discontinuous (look it up) .
 
hutchphd said:
This is a continuum model and the arctangent is not discontinuous (look it up) .
Thanks for your reply. Yes, this is a continuum model and the stress should be continuous (except at the dislocation line). But if you look at the displacement field, it is indeed discontinuous across the dislocation surface, where the displacement suddenly jump from 0 to b). Please see the figure below. My question is that how can a discontinouse displacement field produce a continouse strain field?

The acrtangent function (arctan(x)) is a multivalued function, i.e., it hasmultiple values (0, 2π, 4π...) when x=0, that is why the displacement field is discontinouse.

1631555086145.png

Figure source: Verschueren, J., Gurrutxaga-Lerma, B., Balint, D. S., Dini, D., & Sutton, A. P. (2017). The injection of a screw dislocation into a crystal: Atomistics vs. continuum elastodynamics. Journal of the Mechanics and Physics of Solids, 98, 366-389.
 
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But in the wake of the dislocation there is slip and the strain field is defined in terms of the final equilibrium coordinates. Clearly at the center (r=0) point of the dislocation things are not well defined but the "step" is cooked into the formalism for the rest as shown
 
hutchphd said:
But in the wake of the dislocation there is slip and the strain field is defined in terms of the final equilibrium coordinates. Clearly at the center (r=0) point of the dislocation things are not well defined but the "step" is cooked into the formalism for the rest as shown
I find in some textbook that the displacement 'step change' across the dislocation surface is plastic deformation, so the actual elastic displacement field is continuous at the surface and the total displacement field (discontinuous) is the sum of the elastic-displacement (continues) and the plastic-displacement (slip b). The strain and stress we calculated using the equation are elastic, there also exists another plastic component.

Rf: Dislocations in solids. Vol. 1. The elastic theory edited by F. R. N. Nabarro, pp42-44.
 

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