Orientation dependence of dislocation structures in cyclically deformed Cu-16 At. Pct Al alloy single crystals
Lattice (music)
Lüders band
Glide plane
DOI:
10.1007/s11661-003-0332-5
Publication Date:
2007-04-10T08:31:07Z
AUTHORS (4)
ABSTRACT
The dislocation structures induced by the cyclic deformation of Cu-16 at. pct Al alloy single crystals oriented, typically, as [(1) over bar 23] for single slip and [023] and [(1) over bar 17] for double slip, were studied by transmission electron microscopy (TEM) and compared with the results of Cu single crystals. Completely unlike the dislocation structures of Cu single crystals of corresponding orientations, the dislocation structures of these oriented Cu-16 at. pet Al alloy single crystals show a typical planar morphology. As the applied-plastic-stain amplitude increases, the dislocation configuration changes, on the whole, from multipolar arrays to dislocation tangles in the primary slip plane and front low-density planar slip bands to well-developed persistent Luder's bands (PLBs) in the planes normal to the primary slip plane, respectively. Secondary slips can be clearly observed to activate from very low plastic-strain amplitudes in all three Cu-16 at. pet Al single crystals investigated. Interestingly, the crystallographic orientation has almost no effect on the dislocation structure of Cu-16 at. pct Al single crystals.
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