Structural evolution and grain growth kinetics of the Fe-28Al elemental powder during mechanical alloying and annealing

The structural evolution and grain growth kinetics of the Fe-28Al (28 at.%) elemental powder during mechanical alloying and annealing were studied. Moreover, the alloying mechanism during milling the powder was also discussed. During mechanical alloying the Fe-28Al elemental powder, the solid state solution named Fe(Al) was formed. The lattice parameter of Fe(Al) increases and the grain size of Fe(Al) decreases with increasing milling time. The Fe and Al particles were first deformed, and then, the composite particles of the concentric circle-like layers were generated. Finally, the composite particles were substituted by the homogeneous Fe(Al) particles. The continuous diffusion mixing mechanism is followed, mainly by the diffusion of Al atoms into Fe. During annealing the milled Fe-28Al powder, the order transformation from Fe(Al) to DO3-Fe3Al and the grain growth of DO3-Fe3Al occurred. The grain growth kinetic constant, K = 1.58 x 10(-9) exp(-540.48 x 10(3)/RT) m(2)/s. (C) 2007 Elsevier Ltd. All rights reserved.