In this work, we propose a parameter estimation framework for fracture propagation problems. The fracture problem is described by a phase-field method. Parameter estimation is realized with a Bayesian framework. Here, the focus is on uncertainties arising in the solid material parameters and the critical energy release rate. A reference value (obtained on a sufficiently small mesh) as the replacement of measurement will be chosen, and their posterior distribution is obtained. Due to time- and mesh dependency of the problem, the computational costs can be high. Using Bayesian inversion, we solve the problem on a relatively coarse mesh and fit the parameters. The obtained load-displacement curve that is usually the target function is matched with the reference values. Finally, our algorithmic approach is substantiated with several numerical examples.
@article{arxiv.1910.09863,
title = {A Bayesian estimation method for variational phase-field fracture problems},
author = {Amirreza Khodadadian and Nima Noii and Maryam Parvizi and Mostafa Abbaszadeh and Thomas Wick and Clemens Heitzinger},
journal= {arXiv preprint arXiv:1910.09863},
year = {2020}
}