Predicting the failure of two-dimensional silica glasses

Series: 
Lecture
Speaker and affiliation: 
Prof. Stefano Zapperi, Full professor of Theoretical Condensed Matter Physics. Department of Physics and Center for Complexity & Biosystems, University of Milan, Italy
Date: 
Tue, 2022-05-31 13:00 to 14:30
Venue: 
https://www.gotomeet.me/NCBJmeetings/nomaten-seminar
Abstract: 

Being able to predict the failure of materials based on structural information is a fundamental issue with enormous practical and industrial relevance for the monitoring of devices and components. Thanks to recent advances in deep learning, accurate failure predictions are becoming possible even for strongly disordered solids, but the sheer number of parameters used in the process renders a physical interpretation of the results impossible. Here we address this issue and use machine learning methods to predict the failure of simulated two dimensional silica glasses from their initial undeformed structure. We then exploit Gradient-weighted Class Activation Mapping (Grad-CAM) to build attention maps associated with the predictions, and we demonstrate that these maps are amenable to physical interpretation in terms of topological defects and local potential energies. We show that our predictions can be transferred to samples with different shape or size than those used in training, as well as to experimental images. Our strategy illustrates how artificial neural networks trained with numerical simulation results can provide interpretable predictions of the behavior of experimentally measured structures.

 

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