Abstract
Abstract Samples of Al-2.2at.% Mo and Al-0.7at.% Mo have been prepared as solid solutions by melt-spinning, and have then been annealed at temperatures between 643 and 923 K. Analytical transmission electron microscopy has been used to determine the factors that control the rate of return to equilibrium in these supersaturated solid solutions. It has been found that in the Al-2.2at% Mo alloy the diffusion of Mo, to form the equilibrium phase Al12 Mo, is accompanied by the formation of dislocation networks, which separate regions that contain 2.2 at% Mo from regions of virtually pure Al, where the Mo has been removed from solution. The dislocations accommodate the change in lattice parameter between these two regions and provide diffusion paths to grain boundaries, where Al12 Mo is precipitated. In the case of Al-0.7 at.% Mo it has been found that diffusion occurs either along grain boundaries, during grain growth, or through the bulk of the grains, but that no dislocations are generated during annealing. ...
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