1. 3D MС Simulation of Grain Growth Kinetics and the Zener Limit in Polycrystals
- Author
-
K. T. Kashyap, Anirudh Bhat, K. R. Phaneesh, and Gautam Mukherjee
- Subjects
Physics ,Grain growth ,Condensed matter physics ,Phase (matter) ,Monte Carlo method ,Volume fraction ,Particle ,General Medicine ,Zener diode ,Grain size ,Potts model - Abstract
Large scale Potts model Monte Carlo simulation was carried on 3-dimensional square lattices of 1003 and 2003 sizes using the Metropolis algorithm to study grain growth behavior. Simulations were carried out to investigate both growth kinetics as well as the Zener limit in two-phase polycrystals inhibited in growth by second phase particles of single-voxel size. Initially the matrices were run to 10,000 Monte Carlo steps (MCS) to check the growth kinetics in both single phase and two-phase poly-crystals. Grain growth exponent values obtained as a result have shown to be highest (~ 0.4) for mono-phase materials while the value decreases with addition of second phase particles. Subsequently the matrices were run to stagnation in the presence of second phase particles of volume fractions ranging from 0.001to 0.1. Results obtained have shown a cube root dependence of the limiting grain size over the particle volume fraction thus reinforcing earlier 3D simulation efforts. It was observed that there was not much difference in the values of either growth kinetics or the Zener limit between 1003 and 2003 sized matrices, although the results improved mildly with size.
- Published
- 2014