Enregistré dans:
Détails bibliographiques
Auteurs principaux: Liu, Dong, Brantut, Nicolas, Aben, Franciscus M.
Format: Preprint
Publié: 2024
Sujets:
Accès en ligne:https://arxiv.org/abs/2401.14506
Tags: Ajouter un tag
Pas de tags, Soyez le premier à ajouter un tag!
_version_ 1866909083092647936
author Liu, Dong
Brantut, Nicolas
Aben, Franciscus M.
author_facet Liu, Dong
Brantut, Nicolas
Aben, Franciscus M.
contents We measured the spatiotemporal evolution of pore pressure on- and off-fault during failure and slip in initially intact Westerly granite under triaxial conditions. The pore pressure perturbations in the fault zone and the surrounding bulk presented opposite signs upon shear failure, resulting in large pore pressure gradients over small distances (up to 10 MPa/cm). The on-fault pore pressure dropped due to localised fault dilation associated with fracture coalescence and fault slip, and the off-fault pore pressure increased due to bulk compaction resulting from the closure of dilatant microcracks mostly parallel to the maximum compression axis. Using a simplified analytical pore pressure diffusion model, we were able to capture our observations qualitatively. A quantitative fit could not be achieved, likely due to model simplifications and experimental variability. We show that a reduction in bulk porosity and relatively undrained conditions during failure are necessary for the presence of the off-fault pore pressure elevation. Considering this phenomenon as a consequence of a main shock, we further show that off-fault pore pressure increase have the potential to trigger neighbouring fault instabilities. In nature, we expect the phenomenon of off-fault pore pressure increase to be most relevant to misoriented faults, where the pre-rupture stresses can be large enough to reach the dilatancy threshold in the wall rocks.
format Preprint
id arxiv_https___arxiv_org_abs_2401_14506
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Opposite variations for pore pressure on and off the fault during simulated earthquakes in the laboratory
Liu, Dong
Brantut, Nicolas
Aben, Franciscus M.
Geophysics
We measured the spatiotemporal evolution of pore pressure on- and off-fault during failure and slip in initially intact Westerly granite under triaxial conditions. The pore pressure perturbations in the fault zone and the surrounding bulk presented opposite signs upon shear failure, resulting in large pore pressure gradients over small distances (up to 10 MPa/cm). The on-fault pore pressure dropped due to localised fault dilation associated with fracture coalescence and fault slip, and the off-fault pore pressure increased due to bulk compaction resulting from the closure of dilatant microcracks mostly parallel to the maximum compression axis. Using a simplified analytical pore pressure diffusion model, we were able to capture our observations qualitatively. A quantitative fit could not be achieved, likely due to model simplifications and experimental variability. We show that a reduction in bulk porosity and relatively undrained conditions during failure are necessary for the presence of the off-fault pore pressure elevation. Considering this phenomenon as a consequence of a main shock, we further show that off-fault pore pressure increase have the potential to trigger neighbouring fault instabilities. In nature, we expect the phenomenon of off-fault pore pressure increase to be most relevant to misoriented faults, where the pre-rupture stresses can be large enough to reach the dilatancy threshold in the wall rocks.
title Opposite variations for pore pressure on and off the fault during simulated earthquakes in the laboratory
topic Geophysics
url https://arxiv.org/abs/2401.14506