Atomistic simulation of interface controlled solid-state phase transformations

Abstract

A multi-lattice kinetic Monte Carlo method has been developed for the atomistic simulation of massive phase transformations. Beside sites on the crystal lattices of the parent and product phase, randomly placed sites are incorporated as possible positions. These random sites allow the atoms to take favourable intermediate positions, essential for a realistic description of transformation interfaces. The transformation from fcc to bcc starting from a flat interface with the fcc(111)//bcc(110) and fcc[112]//bcc[001] orientation in a single component system has been simulated. Growth occurs in two different modes depending on the chosen values of the bond energies. For larger fcc-bcc energy differences, continuous growth is observed with a rough transformation front. For smaller energy differences, plane-by-plane growth is observed. In this growth mode two-dimensional nucleation is required in the next fcc plane after completion of the transformation of the previous fcc plane.

Cite this paper

@inproceedings{Bos2005AtomisticSO, title={Atomistic simulation of interface controlled solid-state phase transformations}, author={Cornelis Bos and METALLFORSCHUNG STUTTGART}, year={2005} }