Supporting data for: "Active and Passive Monitoring of Fault Reactivation under Stress Cycling"

Aukje Veltmeijer; Milad Naderloo;

2024 || 4TU.ResearchData

Increased seismicity, due to subsurface activities has led to increased interest in monitoring and seismic risk mitigation. In this study we combined passive and active acoustic monitoring methods to monitor fault sliding and reactivation in the laboratory. Acoustic emission (AE) and ultrasonic transmission measurements were performed during stress-cycling to monitor stress-driven fault reactivation. This dataset contains the recorded acoustic emission, the recorded ultrasonic waveforms and the loading data (i.e. axial stress, confining stress, displacement) of the rock mechanical experiment.

Originally assigned keywords

Corresponding MSL vocabulary keywords

MSL enriched keywords

MSL enriched sub domains
  • rock and melt physics
  • analogue modelling of geologic processes
Source http://dx.doi.org/10.4121/d40d3812-c3db-46bb-8394-24473c735b23.v1
Source publisher 4TU.ResearchData
DOI 10.4121/d40d3812-c3db-46bb-8394-24473c735b23.v1
Authors
  • Aukje Veltmeijer
  • Milad Naderloo
Contributors
  • TU Delft, Faculty of Civil Engineering and Geosciences, Department of Applied Geophysics and Petrophysics
  • Other
References
  • Naderloo, M., Veltmeijer, A., & Barnhoorn, A. (2022). Active and passive monitoring of fault reactivation under stress cycling. Second International Meeting for Applied Geoscience & Energy. https://doi.org/10.1190/image2022-3750358.1
  • 10.1190/image2022-3750358.1
  • IsSupplementTo
Citation Veltmeijer, A., & Naderloo, M. (2024). Supporting data for: "Active and Passive Monitoring of Fault Reactivation under Stress Cycling" (Version 1) [Data set]. 4TU.ResearchData. https://doi.org/10.4121/D40D3812-C3DB-46BB-8394-24473C735B23.V1