Labor Infrastruktur

Materialprüfung

GFZ House A14
GFZ House A14 (CC BY: M. Rosenau, GFZ)
Rock analogue materials
Rock analogue materials (CC BY: M. Rosenau, GFZ)
Analogue materials
Analogue materials (CC BY: M. Rosenau, GFZ)
Rotational axial/triaxial tester (Zwickiline 2.5 kN - 10 Nm)
Rotational axial/triaxial tester (Zwickiline 2.5 kN - 10 Nm) (CC BY: M. Rosenau, GFZ)
Ring-shear tester (Schulze RST-01)
Ring-shear tester (Schulze RST-01) (CC BY: M. Rosenau, GFZ)
Ring-shear tester (Schulze RST-01)
Ring-shear tester (Schulze RST-01) (CC BY: M. Rosenau, GFZ)
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  • Rheometer Anton Paar MCR301 (Viskoelastizität)
  • Ringschertester Schulze RST-01(Reibung) > video
  • Rotations axial/triaxial Tester Zwick-Roell Zwickiline (Elastoplastizität)

Analoge Modellierung

Sandbox
Sandbox (Image: GFZ)
Sandbox rheometry
Sandbox rheometry (CC BY: M. Rosenau, GFZ)
Thermomechanical subduction model
Thermomechanical subduction model (CC BY: DOI: 10.2312/GFZ.syserde.02.02.2)
Shocks in a box
Shocks in a box (CC BY: M. Rosenau, GFZ)
Sandwedge
Sandwedge (Image: GFZ)
Seismotectonic scale model
Seismotectonic scale model (CC BY: M. Rosenau, GFZ)
Landslide model
Landslide model (CC BY: M. Rosenau, GFZ)
Rifting experiment
Rifting experiment (CC BY: M. Rosenau, GFZ)
Kollabierende Kegel über Störungen.
Kollabierende Kegel über Störungen. (CC-BY: M. Rosenau/GFZ)
Analoges Störungsnetzwerk
Analoges Störungsnetzwerk (CC-BY: J. Liu/GFZ)
Aufsicht auf ein bivergentes Keil-Experiment mit sehr geringer Erosion.
Aufsicht auf ein bivergentes Keil-Experiment mit sehr geringer Erosion. (CC-BY: GFZ/Rosenau)
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Experimentelles Monitoring

PIV-derived surface strain
PIV-derived surface strain of a strike-slip fault network model (CC BY: M. Rosenau, GFZ)
Mid-speed PIV cameras
Mid-speed PIV cameras: 100s Hz@5 MPx (CC BY: M. Rosenau, GFZ)
PIV-derived deformation map
PIV-derived deformation map of a wedge model (CC BY: T. Santimano, GFZ)
Digital elevation model (pluton model)
SfM-derived digital elevation model of an experimental pluton (CC BY: M. Michail & M. Rudolf, GFZ)
High speed PIV camera
High speed PIV camera: kHz@4 MPx (CC BY: M. Rosenau, GFZ)
Laborytory geodesy: PIV-derived emulated InSAR image
Laboratory geodesy: PIV-derived emulated InSAR image of an analogue subduction earthquake (CC BY: M. Rosenau, GFZ)
MEMS accelerometer
MEMS accelerometer: static to kHz (CC BY: M. Rosenau, GFZ)
Laser scan-derived shaded relief
Laser scan-derived shaded relief of a model of the Aegean (CC BY: E. Kosari, GFZ)
PIV-derived velocity map
PIV-derived velocity map of an analogue earthquake (CC BY: M. Rudolf, GFZ)
PIV-derived digital elevation model
PIV-derived digital elevation model of a sandwedge (CC BY: M. Rosenau, GFZ)
High-resolution PIV cameras
High-resolution PIV cameras: Hz@20-50 MPx (CC BY: M. Rosenau, GFZ)
Force sensor data
Sandbox rheometry: Force sensor data (CC BY: M. Rosenau, GFZ)
SfM-derived digital elevation model
SfM-derived digital elevation model of a rifting model (CC BY: J. Liu, GFZ)
Laboratory seismology: Accelerometer data
Laboratory seismology: Accelerometer data (CC BY: M. Rosenau, GFZ)
Surface shear strain during fault linkage
Surface shear strain during fault linkage (CC BY: M. Rosenau, GFZ)
Rotation during slab tearing
Rotation during slab tearing (CC BY: M. Rosenau, GFZ)
Coseismic velocity during analogue earthquake
Coseismic velocity during analogue earthquake (CC BY: DOI: 10.2312/GFZ.syserde.02.02.2)
Analogue subduction earthquake
Analogue subduction earthquake (CC BY: E. Kosari, GFZ)
Analogue strike-slip earthquake
Analogue strike-slip earthquake (CC BY: E. Kosari, GFZ)
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  • Labor-Geodesie & -Seismologie
  • Digital hochauflösende Hochgeschwindigkeitsaufnahmen: 5-50 MPx, 1-10.000 Hz (LaVision Imager, Phantom VEO)
  • Digitale Bildlkorrelation: DIC/PIV (LaVision Strainmaster) & SfM (Agisoft Metashape)
  • Laser Scan (Artec3D Leo)
  • Kraftsensoren, MEMS Beschleunigungsmesser, Piezos (static to kHz/MHz dynamic)
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