Correlating oriented grain number density of recrystallisation in particle-containing aluminium alloys

Abstract

The recrystallized grain structure of Al–(Mn)–Fe–Si alloys after isothermal annealing was studied by electron backscatter diffraction (EBSD) technique. Statistical correlation suggests that the frequency of forming P-oriented ({011}«566») grains at a particle larger than the critical diameter (about 1.1 μm) is about 2% when the effect of fine dispersoids and concurrent precipitation is negligible. The overall grain number density is correlated linearly with the number densities of P and Cube ({001}«100») grains. The grain number densities of typical orientations (P, ND-rotated cube {001}«310» and Cube) and the overall recrystallized grains increase as rolling strain increases, following a similar exponential law.