Data release for effect of cationic species on the friction of clay-bearing faults
July 27, 2023
Data are time series of clay shearing tests presented in 'Friction in clay-bearing faults increases with the ionic radius of interlayer cations' by Sakuma et al. in Communications Earth & Environment, 2022. Data were used for Figure 1 and Supplementary Figure 8 in that paper. Files contain shear strength as a function of fault slip in laboratory tests for brine-saturated montmorillonite clay.
Citation Information
| Publication Year | 2023 |
|---|---|
| Title | Data release for effect of cationic species on the friction of clay-bearing faults |
| DOI | 10.5066/P9PB9UXR |
| Authors | David A Lockner, Sakuma Hiroshi, John G Solum, Nicholas C Davatzes |
| Product Type | Data Release |
| Record Source | USGS Asset Identifier Service (AIS) |
| USGS Organization | Earthquake Science Center |
| Rights | This work is marked with CC0 1.0 Universal |
Related
Friction in clay-bearing faults increases with the ionic radius of interlayer cations Friction in clay-bearing faults increases with the ionic radius of interlayer cations
Smectite can dramatically reduce the strength of crustal faults and may cause creep on natural faults without great earthquakes; however, the frictional mechanism remains unexplained. Here, our shear experiments reveal systematic increase in shear strength with the increase of the ionic radius of interlayer cations among lithium-, sodium-, potassium-, rubidium-, and cesium...
Authors
Hiroshi Sakuma, David Lockner, John Solum, Nick Davatzes
Related
Friction in clay-bearing faults increases with the ionic radius of interlayer cations Friction in clay-bearing faults increases with the ionic radius of interlayer cations
Smectite can dramatically reduce the strength of crustal faults and may cause creep on natural faults without great earthquakes; however, the frictional mechanism remains unexplained. Here, our shear experiments reveal systematic increase in shear strength with the increase of the ionic radius of interlayer cations among lithium-, sodium-, potassium-, rubidium-, and cesium...
Authors
Hiroshi Sakuma, David Lockner, John Solum, Nick Davatzes