Hot Working Defines Thermomechanical Processing (TMP) for Aluminum Alloys and Composites
| Periodical | Materials Science Forum (Volumes 706 - 709) |
|---|---|
| Main Theme | THERMEC 2011 |
| Edited by | T. Chandra, M. Ionescu and D. Mantovani |
| Pages | 89-96 |
| DOI | 10.4028/www.scientific.net/MSF.706-709.89 |
| Citation | H.J. McQueen et al., 2012, Materials Science Forum, 706-709, 89 |
| Online since | January, 2012 |
| Authors | H.J. McQueen, E. Evangelista |
| Keywords | Aluminum Alloy, Dynamic Recovery, Dynamic Recrystallization (DRX), Precipitation, Recovery, Recrystallization, Severe Strain, Thermomechanical Processing (TMP), TMP History |
| Price | US$ 28,- |
TMP of Al alloys includes hot working with dynamic substructures and deformation bands for texture components combined with static recovery or recrystallization as well as cold working altered by annealing. The above processes are separately tailored for solute (Al, Mg), dispersoid (Al-0.7Fe) and precipitation hardening alloys; aging combined with deformation can raise strength or improve fatigue or corrosion resistance. Hot and cold rolling with suitable holding intervals are managed to combine deformation and annealing textures for planar anisotropy or for producing less fibrous grains to avoid delamination corrosion; grains may be severely refined by discontinuous or continuous recrystallization for superplastic sheet. In hot-billet and impact extrusion as an addition to substructure and texture strengthening, the intense heating near the die may be employed for precipitate solution with exit quenching for press heat treatment to T5 temper. Similarly, friction stir surface treatment and welding provide intense hot straining with additional softening as metal is swept behind the pin. In combination with some of the above, forging provides grain and dispersoid fibering oriented for crack retardation; semi solid forming competes with this.
