Modelling the influence of grain-size-dependent solute drag on the kinetics of grain growth in nanocrystalline materials

AbstractÐA model that describes the temporal evolution of an initial grain size distribution (GSD) has been used to analyze the eect of initial GSD on grain growth. Based upon the work of Hillert, and Hunderi and Ryum, this model uses a ®nite dierence technique to numerically solve the continuity eq

In this paper, a computation model of corrosion rate versus grain size of nanocrystalline zirconium at high temperature has been presented. By this model, the corrosion rate and weight gain of zirconium metal under different temperature were calculated. The results show that the corrosion resistance

We report on the observation of real-time-resolved room temperature grain growth in nanocrystalline metals. We find that neither the time evolution of size can be modeled by standard growth theories nor are there any other systems aware to us that manifest a similar growth behaviour. We detect a tra