Bayesian Inference of Atomic Diffusivity in a Binary Ni/Al System Based on Molecular Dynamics

Author(s)
Rizzi, F.Salloum, M.Marzouk, Youssef M.Xu, R.-G.Falk, M. L.; ... Show more
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Abstract
This work focuses on characterizing the integral features of atomic diffusion in Ni/Al nanolaminates based on molecular dynamics (MD) computations. Attention is focused on the simplified problem of extracting the diffusivity, D, in an isothermal system at high temperature. To this end, a mixing measure theory is developed that relies on analyzing the moments of the cumulative distribution functions (CDFs) of the constituents. The mixing measures obtained from replica simulations are exploited in a Bayesian inference framework, based on contrasting these measures with corresponding moments of a dimensionless concentration evolving according to a Fickian process. The noise inherent in the MD simulations is described as a Gaussian process, and this hypothesis is verified both a priori and using a posterior predictive check. Computed values of D for an initially unmixed system rapidly heated to 1500 K are found to be consistent with experimental correlation for diffusion of Ni into molten Al. On the contrary, large discrepancies with experimental predictions are observed when D is estimated based on large-time mean-square displacement (MSD) analysis, and when it is evaluated using the Arrhenius correlation calibrated against experimental measurements of self-propagating front velocities. Implications are finally drawn regarding extension of the present work and potential refinement of continuum modeling approaches.
Date issued
2011-03
URI
http://hdl.handle.net/1721.1/65861
Department
Massachusetts Institute of Technology. Department of Aeronautics and Astronautics
Journal
Multiscale Modeling and Simulation
Publisher
Society for Industrial and Applied Mathematics
Citation
Rizzi, F. et al. “Bayesian Inference of Atomic Diffusivity in a Binary Ni/Al System Based on Molecular Dynamics.” Multiscale Modeling & Simulation 9.1 (2011) : 486. © 2011 Society for Industrial and Applied Mathematics
Version: Final published version
ISSN
1540-3459
1540-3467
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