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  • Rock deformation and fluid transport

    Using state-of-the-art laboratory facilities, we investigate why natural rocks deform, and how this changes local fluid transport. We perform mechanical and permeability tests in combination with micro and nanoscale analysis/imaging to identify the mechanisms that control bulk deformation, fault movement and fluid transport at the crustal and reservoir scale. [Learn more]

  • F. Rall Walsh, III, Mark D. Zoback, and Ker Than: Earthquakes in Oklahoma

    Faulting and crustal mechanics

    Our group carries out a variety of studies that approach problems of faulting and crustal mechanics in geologic environments by integration of various types of data. Typically, these studies involve working with data on the magnitude and orientation of in situ stresses, seismological data, geodetic data, etc. [Learn more]

  • Energy Information Administration shale gas plays

    Reservoir geomechanics

    We are carrying out a series of studies, usually in close collaboration with the oil and gas industry, on problems in oil and gas reservoirs, potential CO2 repositories and geothermal reservoirs. The emphasis of this research recently has been on shale gas, tight gas and tight oil reservoirs. [Learn more]

 

Stanford Stress and Crustal Mechanics Group

The Stress and Crustal Mechanics Group uses knowledge of the state of stress in the Earth and the mechanical properties of Earth materials to investigate a variety of geophysical problems. [more]

The group is directed by Professor Mark D. Zoback.

Recent Publications

Sone, Hiroki, and Zoback, M.D. 2014. Time-dependent deformation of shale gas reservoir rocks and its long-term effect on the in situ state of stress. International Journal of Rock Mechanics & Mining Sciences 69:120–132.

Yang, Yi, and M. D. Zoback. 2014. The role of preexisting fractures and faults during multistage hydraulic fracturing in the Bakken FormationInterpretation 2(3):SG25SG39.

Johri, Madhur, E. M. Dunham, M. D. Zoback, and Z. Fang. 2014. Predicting fault damage zones by modeling dynamic rupture propagation and comparison with field observationsJournal of Geophysical Research: Solid Earth 119, doi:10.1002/ 2013JB010335. 

Al Ismail, Maytham I., Hol, S., Reece, J.S., and Zoback, M.D. August 2014. The Effect of CO2 Adsorption on Permeability Anisotropy in the Eagle Ford Shale. URTeC 1921520, Denver, Colorado, USA: 25-27.

Zoback, Mark D., and D. J., Arent. 2014. Shale Gas Development Opportunities and Challenges. The Bridge 44(1):16–23.