In materials science, a Lomer–Cottrell junction is a particular configuration of dislocations.
When two perfect dislocations encounter along a slip plane, each perfect dislocation can split into two Shockley partial dislocations: a leading dislocation and a trailing dislocation. When the two leading Shockley partials combine, they form a separate dislocation with a burgers vector that is not in the slip plane. This is the Lomer–Cottrell dislocation. It is sessile and immobile in the slip plane, acting as a barrier against other dislocations in the plane. The trailing dislocations pile up behind the Lomer–Cottrell dislocation, and an ever greater force is required to push additional dislocations into the pile-up.
ex. FCC lattice along {111} slip planes
|leading| |trailing|
Combination of leading dislocations:
The resulting dislocation is along the crystal face, which is not a slip plane in FCC at room temperature.
Lomer–Cottrell dislocation
References
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