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Deep learning model to predict fracture mechanisms of graphene

Engineering and Technology

Deep learning model to predict fracture mechanisms of graphene

A. J. Lew, C. Yu, et al.

Discover how researchers Andrew J. Lew, Chi-Hua Yu, Yu-Chuan Hsu, and Markus J. Buehler harness machine learning to predict graphene's intricate fracture behavior. This groundbreaking study delves into crack instabilities and challenges the limitations of traditional methods, promising a new era in nanomaterial design!

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Playback language: English
Abstract
Understanding fracture is critical to the design of resilient nanomaterials. Molecular dynamics offers a way to study fracture at an atomistic level, but is computationally expensive with limitations of scalability. In this work, we build upon machine-learning approaches for predicting nanoscopic fracture mechanisms including crack instabilities and branching as a function of crystal orientation. We focus on a particular technologically relevant material system, graphene, and apply a deep learning method to the study of such nanomaterials and explore the parameter space necessary for calibrating machine-learning predictions to meaningful results. Our results validate the ability of deep learning methods to quantitatively capture graphene fracture behavior, including its fractal dimension as a function of crystal orientation, and provide promise toward the wider application of deep learning to materials design, opening the potential for other 2D materials.
Publisher
npj 2D Materials and Applications
Published On
Apr 30, 2021
Authors
Andrew J. Lew, Chi-Hua Yu, Yu-Chuan Hsu, Markus J. Buehler
Tags
nanomaterials
machine learning
fracture mechanisms
graphene
deep learning
crystal orientation

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