Strength evolution of simulated carbonate-bearing faults: The role of normal stress and slip velocity

Strength evolution of simulated carbonate-bearing faults: The role of normal stress and slip velocity

A great number of earthquakes occur within thick carbonate sequences in the shallow crust. At the same time, carbonate fault rocks exhumed from a depth < 6 km (i.e., from seismogenic depths) exhibit the coexistence of structures related to brittle (i.e., cataclasis) and ductile deformation proces...

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Bibliographic Details
Published in:Journal of structural geology Vol. 109; pp. 1 - 9
Main Authors: Mercuri, Marco, Scuderi, Marco Maria, Tesei, Telemaco, Carminati, Eugenio, Collettini, Cristiano
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-04-2018
Subjects:
Calcite
Carbonate-bearing faults
Friction
Microstructures
Carbonate-bearing faults
Microstructures
Friction
Calcite
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Summary:A great number of earthquakes occur within thick carbonate sequences in the shallow crust. At the same time, carbonate fault rocks exhumed from a depth < 6 km (i.e., from seismogenic depths) exhibit the coexistence of structures related to brittle (i.e., cataclasis) and ductile deformation processes (i.e., pressure-solution and granular plasticity). We performed friction experiments on water-saturated simulated carbonate-bearing faults for a wide range of normal stresses (from 5 to 120 MPa) and slip velocities (from 0.3 to 100 μm/s). At high normal stresses (σn > 20 MPa) fault gouges undergo strain-weakening, that is more pronounced at slow slip velocities, and causes a significant reduction of frictional strength, from μ = 0.7 to μ = 0.47. Microstructural analysis show that fault gouge weakening is driven by deformation accommodated by cataclasis and pressure-insensitive deformation processes (pressure solution and granular plasticity) that become more efficient at slow slip velocity. The reduction in frictional strength caused by strain weakening behaviour promoted by the activation of pressure-insensitive deformation might play a significant role in carbonate-bearing faults mechanics. •Mechanical behaviour of simulated carbonate-bearing faults is investigated.•Saturated conditions, high normal stress and slow slip velocities favour weakening.•The weakening is related to the activation of pressure-insensitive deformation.
ISSN:0191-8141
1873-1201
DOI:10.1016/j.jsg.2017.12.017