Unfortunately this page does not have a mobile or narrow screen view. Please switch to a desktop computer or increase the size of your browser. For tablets try flipping the screen.

Metadata Files

Data Publication

Supplement to: Sandbox Rheometry: Co-Evolution of Stress and Strain in Riedel- and Critical Wedge-Experiments

Ritter, Malte Christian | Santimano, Tasca | Rosenau, Matthias | Leever, Karen | Oncken, Onno

GFZ Data Services

(2018)

This dataset is supplementary to the article of Ritter et al. (2017). In this article, a new experimental device is presented that facilitates precise measurements of boundary forces and surface deformation at high temporal and spatial resolution. This supplementary dataset contains the measurement data from two experiments carried out in this new experimental device: one experiment of an accretionary critical wedge and one of Riedel-type strike-slip deformation. For a detailed description of the set-up and an analysis of the data, please see Ritter et al. (2017). The data available for either experiment are: • A video showing deformation in top view together with the evolution of boundary force. This file is in AVI-format. • A time-series of 2D vector fields describing the surface deformation. These vector fields were obtained from top-view video images of the respective experiment by means of digital image correlation (DIC). Each vector field is contained in a separate file; the files are consecutively numbered. The vector fields are stored in *.mat-files that can be opened using e.g. the software Matlab or the freely available GNU Octave. They take the form of Matlab structure arrays and are compatible to the PIVmat-toolbox by Moisy (2016) that is freely available. The most important fields of the structure are: x and y, that are vectors spanning a coordinate system, and vx and vy, which are arrays containing the actual vector components in x- and y-direction, respectively. • A file containing the measurements of the boundary force applied to drive deformation. This file is also a *.mat-file, containing a structure F with fields force, velocity and position. These fields are vectors describing the force applied by the indenter, the indenter velocity and the indenter position

Keywords


Originally assigned keywords
EPOS
multiscale laboratories
analogue models of geologic processes
analogue modelling results
software tools
PHYSICALLABORATORY MODELS
GEOLOGICTECTONICPALEOCLIMATE MODELS
STRAIN
STRESS
plate margin setting
active continental margin setting
transform plate boundary setting
intraplate tectonic setting
collisional setting
transform faulting
continentalcollision
accretion
thrust fault
Sand
Quartz
Rheometer
Wedge simulator
Shear box
Sandbox
Particle Image Velocimetry PIV
Matlab Mathworks
Videocamera

Corresponding MSL vocabulary keywords
strain
strain
tectonic plate boundary
ocean-continent subduction
transcurrent tectonic plate boundary
intraplate setting
continental collision
thrust fault
sand
quartz
rheometer
rheometer
wedge simulator
wedge simulator
shear box
deformation experiments
particle image velocimetry (PIV)
Matlab (Mathworks)
video camera

MSL enriched keywords
Measured property
strain
Measured property
strain
tectonic plate boundary
convergent tectonic plate boundary
subduction
ocean-continent subduction
transcurrent tectonic plate boundary
intraplate setting
continental collision
tectonic deformation structure
tectonic fault
thrust fault
unconsolidated sediment
clastic sediment
sand
minerals
silicate minerals
tectosilicates
quartz
Apparatus
fluid transport testing
fluid rheology testing
rheometer
Apparatus
characterization of modelling material
rheology testing
rheometer
analogue modelling
deformation experiments
wedge simulator
geomorphic experiments
wedge simulator
shear box
Software
digital image correlation (DIC)
particle image velocimetry (PIV)
Matlab (Mathworks)
Ancillary equipment
model surface monitoring (2D)
camera
video camera
accretionary wedge

MSL original sub domains

analogue modelling of geologic processes

MSL enriched sub domains i

analogue modelling of geologic processes
rock and melt physics

Source

http://dx.doi.org/doi:10.5880/GFZ.4.1.2017.001

Source publisher

GFZ Data Services


DOI

10.5880/GFZ.4.1.2017.001


Authors

Ritter, Malte Christian

0000-0003-1212-4978

GFZ German Research Centre for Geosciences, Potsdam, Germany

Santimano, Tasca

0000-0002-8080-9154

GFZ German Research Centre for Geosciences, Potsdam, Germany

Rosenau, Matthias

0000-0003-1134-5381

GFZ German Research Centre for Geosciences, Potsdam, Germany

Leever, Karen

GFZ German Research Centre for Geosciences, Potsdam, Germany

Oncken, Onno

0000-0002-2894-480X

GFZ German Research Centre for Geosciences, Potsdam, Germany


References

Ritter, M. C., Santimano, T., Rosenau, M., Leever, K., & Oncken, O. (2018). Sandbox rheometry: Co-evolution of stress and strain in Riedel– and Critical Wedge–experiments. Tectonophysics, 722, 400–409. https://doi.org/10.1016/j.tecto.2017.11.018

10.1016/j.tecto.2017.11.018

IsSupplementTo


Contact

Ritter, Malte Christian

malte.ritter@gfz-potsdam.de

GFZ German Research Centre for Geosciences, Potsdam, Germany

Rosenau, Matthias

rosen@gfz-potsdam.de

GFZ German Research Centre for Geosciences, Potsdam, Germany


Citiation

Ritter, M. C., Santimano, T., Rosenau, M., Leever, K., & Oncken, O. (2017). Supplement to: Sandbox Rheometry: Co-Evolution of Stress and Strain in Riedel- and Critical Wedge-Experiments [Data set]. GFZ Data Services. https://doi.org/10.5880/GFZ.4.1.2017.001