Metastable phase nucleation in irradiated metallic alloys

Phase nucleation in irradiated metallic alloys is studied by the atomistic Segregation-Charge Transfer (SCT) model, taking into account that when bomb ardment conditions favour the development of dense collision cascades the s ystem explores kinetic and thermodynamic regions conventionally not accessi ble. Locally nonequilibrium compositional and charge density profiles evolv e at the interface between a cascade and the crystalline matrix, driven by the interface enrichment of one of the film constituents. Charge relaxation to (meta)stable equilibrium is simulated by Charge Transfer Reactions (CTR ), each involving a couple of dissimilar atoms of the initial alloy. Both t he amount of energy needed in a single CTR and the local strain undergone b y the target as a consequence of ion formation are calculated. Considering a set of nineteen alloys which are reported to be amorphized and seventeen ones which remain crystalline under ion bombardment, for both structure sta bility parameters threshold values are found, which allow to separate cryst alline from vitrified alloys. (C)1999 Acta Metallurgica Inc.