Dissemination of IT for the Promotion of Materials Science (DoITPoMS)

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Dislocation motion

Watch the video clips of the bubble raft undergoing compressive, tensile and shear deformation. It may help you to watch each clip several times.

Video of bubble raft undergoing compressive and tensile deformation

Video of bubble raft undergoing shear deformation

At small strains, the arrangement of the bubbles does not change. This is elastic deformation of the raft. The bubbles change shape and move slightly apart in an effort to maintain the lowest energy close-packed configuration.

At larger stains, plastic deformation occurs. The bubble raft rearranges by dislocation motion. Notice how dislocation motion occurs along three directions in the raft. These are the close-packed directions, along which the distance between bubble centres is smallest.

Photograph of bubble raft annotated to show close-packed directions

Close-packed directions in a bubble raft

In the different loading conditions, dislocations tend to move mainly along different sets of directions. In each case, the direction along which dislocations generally move is that with the highest resolved shear stress. Dislocations may nucleate near a different type of crystalline defect, such as a grain boundary, solute atom or vacancy.