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Metadata Files

Data Publication

Large-scale biaxial experiments on gypsum-gouge faults and a bare PMMA fault: Mechanical data and selected strain and image data

Buijze, Loes

YoDa Data Repository, Utrecht University, Netherlands

(2019)

Geodetic observations and large-scale laboratory experiments show that seismic instability is preceded by slow slip within a finite nucleation zone. In laboratory experiments rupture nucleation is studied mostly using bare (rock) interfaces, whereas upper crustal faults are typically filled with gouge. To investigate effects of gouge on nucleation, we performed a biaxial shearing experiment on a 350 mm long saw-cut fault filled with gypsum gouge, at room temperature and σ2 = 0.3 - 5 MPa. The gouge layer was sandwiched between polymethylmethacrylate (PMMA) plates that were densely instrumented with strain gauges. Digital Image Correlation (DIC) was used to obtain the deformation field at the top surface of the plates. For reference also a fault without gouge was deformed. Stick-slippan> behavior occurred on both the gouge-filled fault and the PMMA fault. Nucleation of instability on the PMMA fault persistently occurred from one location 80 mm from one of the fault ends, but nucleation on the gouge-filled fault was more complex, nucleating at the ends and/or at 120 mm from the end, with precursory slip occurring over a large fraction of the fault. Nucleation correlated to regions of high fault stress ratio τ/σn. Complexities in nucleation on the gouge-filled fault were related to small length-scale variations in normal stress caused by heterogeneous gouge compaction. Rupture velocities and slip rates were lower for the gouge-filled fault than for the bare PMMA fault. Stick-slip continued when σ2 was lowered, and the nucleation zone increased and interacted with the sample ends before transitioning into instability. The data is provided in a folder with 3 subfolders for 3 experiments. Detailed information about the files in these subfolders as well as information on how the data is processed is given in the explanatory file Buijze_2019_Data_description_sheet.docx. Contact person is Loes Buijze - TNO - loes.buijze@tno.nl

Keywords


Originally assigned keywords
Natural Sciences Earth and related environmental sciences 15
biaxial experiment
nucleation of instability
stickslip
friction
gypsum gouge
Biaxial
gypsum
Analogue material
Friction
Photography
Strain gauge
EPOS
multiscale laboratories
rock and melt physics properties

Corresponding MSL vocabulary keywords
biaxial compression apparatus
shear testing
rate and state friction (RSF) parameters
rate and state friction (RSF) parameters
friction coefficient
frictional deformation
friction coefficient
gypsum

MSL enriched keywords
Apparatus
deformation testing
compression testing
biaxial compression apparatus
shear testing
Measured property
friction - controlled slip rate
rate and state friction (RSF) parameters
Measured property
friction - controlled slip rate
rate and state friction (RSF) parameters
friction coefficient
Inferred deformation behavior
deformation behaviour
frictional deformation
friction coefficient
minerals
sulfate minerals
gypsum
strain
strain
conventional triaxial apparatus: saw-cut
Software
digital image correlation (DIC)
Earth's structure
Earth crust
tectonic deformation structure
tectonic fault

MSL original sub domains

rock and melt physics

MSL enriched sub domains i

rock and melt physics
analogue modelling of geologic processes

Source

http://dx.doi.org/10.24416/UU01-OT6YIY

Source publisher

YoDa Data Repository, Utrecht University, Netherlands


DOI

10.24416/UU01-OT6YIY


Authors

Buijze, Loes

0000-0001-7749-8706

Utrecht University; Netherlands Organisation for Applied Scientific Research (TNO) - Applied Geosciences;


Contributers

Buijze, Loes

ContactPerson

0000-0001-7749-8706

Utrecht University; Netherlands Organisation for Applied Scientific Research (TNO) - Applied Geosciences;

Buijze, Loes

Researcher

0000-0001-7749-8706

Utrecht University; Netherlands Organisation for Applied Scientific Research (TNO) - Applied Geosciences;

Guo, Yanshuang

Researcher

0000-0001-6645-4011

Institute of Geology, China Earthquake Administration;

Guo, Yanshuang

DataCollector

0000-0001-6645-4011

Institute of Geology, China Earthquake Administration;

Niemeijer, André Rik

Supervisor

0000-0003-3983-9308

Utrecht University;

Ma, Shengli

Researcher

0000-0002-5964-5458

Institute of Geology, China Earthquake Administration;

Spiers, Christopher James

Supervisor

0000-0002-3436-8941

Utrecht University;

Experimental rock deformation/HPT-Lab (Utrecht University, The Netherlands)

HostingInstitution

Utrecht University;

Laboratory of Tectonophysics, State Key Laboratory of Earthquake Dynamics

HostingInstitution

Institute of Geology, China Earthquake Administration;


References

Thielicke, W., & Stamhuis, E. J. (2014). PIVlab – Towards User-friendly, Affordable and Accurate Digital Particle Image Velocimetry in MATLAB. Journal of Open Research Software, 2. https://doi.org/10.5334/jors.bl

10.5334/jors.bl

References

Zhuo, Y., Liu, P., Chen, S., Guo, Y., & Ma, J. (2018). Laboratory Observations of Tremor‐Like Events Generated During Preslip. Geophysical Research Letters, 45(14), 6926–6934. Portico. https://doi.org/10.1029/2018gl079201

10.1029/2018GL079201

References


Contact

Laboratory of Tectonophysics, State Key Laboratory of Earthquake Dynamics

Institute of Geology, China Earthquake Administration;


Citiation

Buijze, L. (2019). Large-scale biaxial experiments on gypsum-gouge faults and a bare PMMA fault: Mechanical data and selected strain and image data. Utrecht University. https://doi.org/10.24416/UU01-OT6YIY


Collection Period

2017-05-23 - 2019-09-25