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http://hdl.handle.net/2122/16898
Authors: | Feng, Wei* Yao, Lu* Cornelio, Chiara* Gomila, Rodrigo* Ma, Shengli* Yang, Chaoqun* Germinario, Luigi* Mazzoli, Claudio* Di Toro, Giulio* |
Title: | Physical state of water controls friction of gabbro-built faults | Journal: | Nature Communications | Series/Report no.: | /14 (2023) | Publisher: | Nature PG | Issue Date: | 8-Aug-2023 | DOI: | 10.1038/s41467-023-40313-x | Abstract: | Earthquakes often occur along faults in the presence of hot, pressurized water. Here we exploit a new experimental device to study friction in gabbro faults with water in vapor, liquid and supercritical states (water temperature and pressure up to 400 °C and 30 MPa, respectively). The experimental faults are sheared over slip velocities from 1 μm/s to 100 mm/s and slip distances up to 3 m (seismic deformation conditions). Here, we show with water in the vapor state, fault friction decreases with increasing slip distance and velocity. However, when water is in the liquid or supercritical state, friction decreases with slip distance, regardless of slip velocity. We propose that the formation of weak minerals, the chemical bonding properties of water and (elasto)hydrodynamic lubrication may explain the weakening behavior of the experimental faults. In nature, the transition of water from liquid or supercritical to vapor state can cause an abrupt increase in fault friction that can stop or delay the nucleation phase of an earthquake. |
Appears in Collections: | Article published / in press |
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File | Description | Size | Format | |
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s41467-023-40313-x.pdf | Open Access Published Article | 5.76 MB | Adobe PDF | View/Open |
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