Recrystallisation and Concurrent Precipitation in Hot Rolled AA3103

A. Miroux; Zacharias J. Lok; Sybrand van der Zwaag

doi:10.4028/www.scientific.net/MSF.467-470.393

Paper Titles

The Effect of Sc on the Extrudability and Recrystallisation Resistance of Al-Mn-Zr-Alloys
p.369

The Effect of Strain Path on the Recrystallisation of an Aluminium Manganese Alloy
p.375

Development of Grain Structure and Texture during Annealing in Asymmetrically Rolled AA5754
p.381

Microstructural Parameter-Based Characterization of Annealing Behaviour in Metals Deformed to High Strains
p.387

Recrystallisation and Concurrent Precipitation in Hot Rolled AA3103
p.393

Effect of Solution Heat Treatment and Additives on the Microstructure of Al – Si (A413.1) Automotive Alloys
p.399

Prediction of Static Recrystallisation after Extrusion of Shaped Aluminium Sections
p.407

New Grain Formation in a Coarse-Grained 7475 Al Alloy during Severe Hot Forging
p.421

Texture Changes during Uniaxial Compression of Mg-3Al-1Zn
p.429

HomeMaterials Science ForumMaterials Science Forum Vols. 467-470Recrystallisation and Concurrent Precipitation in...

Recrystallisation and Concurrent Precipitation in Hot Rolled AA3103

Abstract:

The recrystallisation kinetics experimentally measured on a supersaturated AA3103 after hot rolling is analysed using a numerical model. It is shown that temperature and nucleation inhibition due to precipitation on the subgrain structure are the two most important parameters in controlling the recrystallisation kinetics. On the opposite, particle pinning of recrystallised grain boundaries is negligible while pinning of subgrain boundaries during recovery and solute drag are relevant but second order effects.