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Abstract
Most commercial aluminum alloys are characterized by dynamic recrystallization at very large deformations in a continuous manner. The present study deals with the characterization and modeling of the evolution of the microstructure of an aluminum wrought alloy at large plastic deformations. Hot torsion tests of the AA6082 aluminum alloy are carried out using the thermomechanical simulator Gleeble®3800 in a wide range of temperatures and strain rates. The use of water quenching immediately after deformation avoids any static restoration during cooling. Microstructural investigations are carried out by means of electron back scattered diffraction using a scanning electron microscope to determine the grain and subgrain structures, as well as the misorientation distributions. In-situ synchrotron radiation tests during hot torsion are used to confirm the continuous dynamic recrystallization (CDRX) by the evidence of the conversion of low angle boundaries (LAGBs) into high-angle boundaries (HAGBs) and the formation of new texture. Experimental investigations show that CDRX starts with the formation of LAGBs at low strains (center of the sample). By subsequent straining (close to the surface of the sample), the accumulation of dislocations at the LAGBs causes an increase in their misorientation until a critical value is reached and LAGBs transforms into HAGBs. The developed model consists of a microstructural model, equation rates and constitutive equations. The microstructure is described by three internal variables. Their rates are evaluated using the Kocks-Mecking model. The modelled and experimental flow stresses show softening due to the consumption of dislocations and the continuous formation of new HAGBs.
Originalsprache | englisch |
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Aufsatznummer | 012049 |
Fachzeitschrift | Journal of Physics: Conference Series |
Jahrgang | 1270 |
Ausgabenummer | 1 |
DOIs | |
Publikationsstatus | Veröffentlicht - 14 Aug. 2019 |
Veranstaltung | 7th International Conference on Recrystallization and Grain Growth, ReX and GG 2019 - Ghent, Belgien Dauer: 4 Aug. 2019 → 9 Aug. 2019 |
ASJC Scopus subject areas
- Allgemeine Physik und Astronomie
Fields of Expertise
- Advanced Materials Science
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- 2 Abgeschlossen
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CD-Labor für Design von Hochleistungslegierungen mittels thermo-mechanischer Prozesstechnik
Poletti, M. C., Buzolin, R. H., Wang, R., Godavarthy Anantha Venkata, R. K. P., Miller Branco Ferraz, F., Fortmüller, S. & Baumann, G.
1/05/17 → 30/04/24
Projekt: Forschungsprojekt
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FWF-Torsion von Metallen - Thermomechanische Prozesse von Metallen bei höhere bzw. moderate Verformungsgrad
Poletti, M. C., Halici, D., Canelo Yubero, D. & Simonet Fotso, J. F. T.
1/01/15 → 31/07/18
Projekt: Forschungsprojekt