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A Model of Failure and Localization of Basalt at Temperature and Pressure Conditions Spanning the Brittle‐Ductile Transition

Francesco Parisio, Christoph Lehmann, Thomas Nagel

2020Journal of Geophysical Research Solid Earth17 citationsDOIOpen Access PDF

Abstract

Abstract Natural phenomena such as seismicity, volcanism, and fluid circulation in volcanic areas are influenced by the mechanical response of intact basalt. When subjected to a wide range of environmental loading conditions, basalt exhibits inelastic deformation characteristics ranging from brittle to ductile behavior. In this manuscript, we present a new constitutive model of basalt that spans the brittle‐ductile transition by covering a wide range of mean effective stress, temperature, and strain rate. The model has been implemented into the automatic constitutive model code generator MFront, which we have coupled with the finite element solver OpenGeoSys. The software employed for the computations is open source, accessible and offers a versatile solution to model thermomechanical failure of rocks. Within this framework, we have performed numerical simulations that highlight the localization of strains and stresses under triaxial compression. Predictions of the constitutive response, of the depth of the brittle‐ductile transition, and of the localization patterns are in agreement with laboratory and in situ observations. The results have important geophysical implications as they provide a constitutive basis that explains the mechanisms through which basalt can deform in a brittle fashion at temperatures above 600°C.

Topics & Concepts

BrittlenessConstitutive equationBasaltGeologyCompression (physics)Deformation (meteorology)Induced seismicityMaterials scienceStress (linguistics)Strain rateMechanicsFinite element methodComposite materialStructural engineeringSeismologyPhysicsEngineeringLinguisticsPhilosophyRock Mechanics and ModelingGeotechnical and Geomechanical Engineeringearthquake and tectonic studies
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