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Evolution of the defect substructure in V-4Ti-4Cr alloy under severe plastic deformation |
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| Authors: | I. A. Ditenberg A. N. Tyumentsev K. V. Grinyaev V. M. Chernov M. M. Potapenko A. V. Korznikov |
| Affiliation: | 1.Institute of Strength Physics and Materials Science, Siberian Branch,Russian Academy of Sciences,Tomsk,Russia;2.Tomsk State University,Tomsk,Russia;3.Bochvar High-Technology Research Institute of Inorganic Materials,Moscow,Russia;4.Institute for Metals Superplasticity Problems,Russian Academy of Science,Ufa,Bashkortostan, Russia |
| Abstract: | The evolution of the defect substructure in V-4Ti-4Cr alloy under its severe plastic deformation by torsion in Bridgman anvils is studied by transmission electron microscopy. Nanoband structural states with a dipole or multipole character of misorientations and a crystallite (or nanoband) size varying from several to several tens of nanometers form in the true logarithmic strain range e ≈ 3.0−6.6. Such crystallites form inside 100-nm submicrocrystallites or coalesce (at e ≥ 6) to yield mesobands with a pronounced vortex character of their propagation. The formation of these states is related to the activation (by the flows of nonequilibrium point defects in stress fields) of quasi-viscous deformation and lattice reorientation mechanisms, which provide the generation and propagation of partial disclination nanodipoles followed by the development of collective effects in a disclination substructure. These effects lead to the group motion of nanodipoles inside the mesobands. |
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