Add to ORKGWe study strain localization as an enhanced velocity weakening mechanism on earthquake faults. Fault friction is modeled using Shear Transformation Zone (STZ) Theory, a microscopic physical model for non-affine rearrangements in granular fault gouge. STZ Theory is implemented in spring slider and dynamic rupture models of faults. We compare dynamic shear localization to deformation that is uniform throughout the gouge layer, and find that localized slip en-hances the velocity weakening of the gouge. Localized elas-todynamic ruptures have larger stress drops and higher peak slip rates than ruptures with homogeneous strain. 1
It is well known that strain localization during seismic slip occurs as the result of a plastic inst...
Abstract We study dynamic rupture propagation on flat faults using 2D plane strain models featuring ...
Shear deformation of fault gouge or other particulate materials often results in observed strain loc...
Abstract. Field observations of major earthquake fault zones show that shear defor-mation is often c...
Abstract. Field and laboratory observations indicate that at seismic slip rates most shearing is con...
A lattice solid model was developed to study the physics of rocks and the nonlinear dynamics of eart...
Shear strain localization into shear bands is associated with velocity weakening instabilities and e...
Previous models of earthquake rupture dynamics have neglected interesting deformational properties o...
In this work, we investigate slip localization in sheared granular faults at seismic velocities usin...
Strain localization during coseismic slip in fault gouges is a critical mechanical process that has ...
Earthquake simulation and hazard prediction are strongly hampered by insufficient physical knowledge...
International audienceAbstract. Natural fault networks are geometrically complex systems that evolve...
Quantitatively predicting the dynamic response and energy partition of granular fault gouges under s...
Strain localisation is a widespread phenomenon often observed in shear and compressive loading of ge...
ABSTRACT Shear deformation of fault gouge or other particulate materials often results in observed s...
It is well known that strain localization during seismic slip occurs as the result of a plastic inst...
Abstract We study dynamic rupture propagation on flat faults using 2D plane strain models featuring ...
Shear deformation of fault gouge or other particulate materials often results in observed strain loc...
Abstract. Field observations of major earthquake fault zones show that shear defor-mation is often c...
Abstract. Field and laboratory observations indicate that at seismic slip rates most shearing is con...
A lattice solid model was developed to study the physics of rocks and the nonlinear dynamics of eart...
Shear strain localization into shear bands is associated with velocity weakening instabilities and e...
Previous models of earthquake rupture dynamics have neglected interesting deformational properties o...
In this work, we investigate slip localization in sheared granular faults at seismic velocities usin...
Strain localization during coseismic slip in fault gouges is a critical mechanical process that has ...
Earthquake simulation and hazard prediction are strongly hampered by insufficient physical knowledge...
International audienceAbstract. Natural fault networks are geometrically complex systems that evolve...
Quantitatively predicting the dynamic response and energy partition of granular fault gouges under s...
Strain localisation is a widespread phenomenon often observed in shear and compressive loading of ge...
ABSTRACT Shear deformation of fault gouge or other particulate materials often results in observed s...
It is well known that strain localization during seismic slip occurs as the result of a plastic inst...
Abstract We study dynamic rupture propagation on flat faults using 2D plane strain models featuring ...
Shear deformation of fault gouge or other particulate materials often results in observed strain loc...