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Time‐Dependent Weakening of Granite at Hydrothermal Conditions

T.N. Jeppson, D. A. Lockner, N. M. Beeler, D. E. Moore

2023Geophysical Research Letters18 citationsDOIOpen Access PDF

Abstract

Abstract The evolution of a fault's frictional strength during the interseismic period is a critical component of the earthquake cycle, yet there have been relatively few studies that examine the time‐dependent evolution of strength at conditions representative of seismogenic depths. Using a simulated fault in Westerly granite, we examined how frictional strength evolves under hydrothermal conditions up to 250°C during slide‐hold‐slide experiments. At temperatures ≤100°C, frictional strength generally increases with hold duration but, at 200 and 250°C, an initial increase in strength transitions to rapid time‐dependent weakening for holds longer than 14 hr. Forward modeling of long hold periods at 250°C using the rate and state friction constitutive equations requires a second, strongly negative, state variable with a long evolution distance. This implies that significant hydrothermal alteration is occurring at 250°C, consistent with microstructural observations of dissolution and secondary mineral precipitation.

Topics & Concepts

Hydrothermal circulationGeologyPrecipitationDissolutionFault (geology)Constitutive equationSeismologyThermodynamicsMeteorologyPhysicsChemistryFinite element methodPhysical chemistryearthquake and tectonic studiesHigh-pressure geophysics and materialsGeological and Geochemical Analysis
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