Litcius/Paper detail

Deformation Precursors to Catastrophic Failure in Rocks

Jessica McBeck, John M. Aiken, Joachim Mathiesen, Yehuda Ben‐Zion, François Renard

2020Geophysical Research Letters39 citationsDOIOpen Access PDF

Abstract

Abstract Forecasting the timing of catastrophic failure, such as crustal earthquakes, has been a central concern for centuries. Such forecasting requires identifying signals that evolve or accelerate in the precursory phase leading to failure, and the subset of signals that may be detected in the crust. We develop machine learning models to predict the proximity of catastrophic failure in synchrotron X‐ray tomography triaxial compression experiments on rocks using characteristics of evolving fracture networks. We then examine the characteristics that most strongly influence the model results, and thus may be considered the best predictors of the proximity of macroscopic failure. The resulting suite of predictive parameters underscores the importance of dilation in the precursory phase leading to catastrophic failure. The results indicate that the evolution of the strain energy density field may provide more robust predictions of the proximity of failure than other existing metrics of rock deformation.

Topics & Concepts

GeologyCatastrophic failureSeismologyDeformation (meteorology)CrustDilation (metric space)GeophysicsMaterials scienceGeometryComposite materialOceanographyMathematicsRock Mechanics and Modelingearthquake and tectonic studiesLandslides and related hazards