Data accompanying the paper entitled "Rapid normal stress oscillations cause dilatation and weakening in gouge-bearing faults" (dataset)

Data accompanying the paper entitled "Rapid normal stress oscillations cause dilatation and weakening in gouge-bearing faults"

doi:10.4121/19500344.v2

The doi above is for this specific version of this dataset, which is currently the latest. Newer versions may be published in the future. For a link that will always point to the latest version, please use
doi: 10.4121/19500344

Datacite citation style:

Jianye Chen; André R Niemeijer (2022): Data accompanying the paper entitled "Rapid normal stress oscillations cause dilatation and weakening in gouge-bearing faults". Version 2. 4TU.ResearchData. dataset. https://doi.org/10.4121/19500344.v2

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version 2 - 2022-06-29 (latest)

version 1 - 2022-04-06

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Geophysics

keywords

fault dilatation, friction experiment, induced seismicity, stress perturbation

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by Jianye Chen

, André R Niemeijer

In some scenarios, faults in the crust are withstanding rapid stress changes of different magnitudes, such as those from nearby or remote earthquakes, seasonal impoundment and discharge of reservoirs, and hydrocarbon and geothermal energy production. The impact of such stress changes on the earthquake potential of a fault is poorly understood. Researchers from the Utrecht University and the Delft University of Technology have explored this effectby conducting laboratory experiments on simulated faults under in-situ fault conditions. They employed the high-temperature-pressure ring-shear friction apparatus installed in the HPT lab of the Utrecht University. During the experiments, different modes of perturbations were applied to the simulated fault, including normal stress steps (NSS), pulses (NSP), and oscillations (NSO), while shearing the fault at velocity of 1 μm/s. They measured different quantities with high sampling rates such as shear stress and the axial displacement. The enclosed datasets consist of the raw data from five individual experiments (u572, u573, u574, u828, and u829). In two experiments (u572 and u573), a few segments of particular interests are extracted for detailed analyses.

history

2022-04-06 first online

2022-06-29 published, posted

publisher

4TU.ResearchData

format

txt

funding

DeepNL project (Science4Steer)

organizations

Utrecht University, Department of Earth Sciences, HPT Laboratory

DATA

files (11)

1,723 bytesMD5:d10dff05d0c504000219328cd07f2670Readme.txt
8,525,927 bytesMD5:197e24854bbe6a7d5ac3ea933fb81934u572_Data572
5,542,762 bytesMD5:5dab0a4c1e374e4f0c8d025d42bc8970u572_nss_349200_372580
1,148,879 bytesMD5:6aa43138e8363ae7405c3a7ff3641e37u572_Pulse501880_506720_new
809,121 bytesMD5:6414d38d43d4211e358e8d8fb98a549au572_Pulse508682_512089
3,518,863 bytesMD5:17c7909ed98bd27eb56f493f3e9ed4dbu573_Data573
2,040,085 bytesMD5:711858daf557b73972e2992e3b60e082u573_nss_156000_164600
3,966,262 bytesMD5:3b88f232784d4d3da238af167fa91003u573_Pulse573
54,950,957 bytesMD5:2be7f1de7a033eda0b7c0e129b6bdb19u574_Data574
11,521,638 bytesMD5:087e2e891a678609f9044d24e1daf574u828_Data828
11,155,086 bytesMD5:aa96d162faf8740f616951144be29dc1u829_Data829
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