Your search keyword '"SAFOD"' showing total 10 results

1. Scientific Drilling Into the San Andreas Fault Zone —An Overview of SAFOD’s First Five Years

Author

Stephen Hickman, Mark Zoback, and William Ellsw

Subjects

SAFOD, Geology, QE1-996.5

Abstract

The San Andreas Fault Observatory at Depth (SAFOD)was drilled to study the physical and chemical processes controlling faulting and earthquake generation along an active, plate-bounding fault at depth. SAFOD is located near Parkfield, California and penetrates a section of the fault that is moving due to a combination of repeating microearthquakes and fault creep. Geophysical logs define the SanAndreas Fault Zone to be relatively broad (~200 m), containing several discrete zones only 2–3 m wide that exhibit very low P- and S-wave velocities and low resistivity. Two of these zones have progressively deformed the cemented casing at measured depths of 3192 m and 3302 m. Cores from both deforming zones contain a pervasively sheared, cohesionless, foliated fault gouge that coincides with casing deformation and explains the observed extremely low seismic velocities and resistivity. These cores are being now extensivelytested in laboratories around the world, and their composition, deformation mechanisms, physical properties, and rheological behavior are studied. Downhole measurements show that within 200 m (maximum) of the active fault trace, the direction of maximum horizontal stress remains at a high angle to the San Andreas Fault, consistent with other measurements. The results from the SAFOD Main Hole, together with the stress state determined in the Pilot Hole, are consistent with a strong crust/weak fault model of the San Andreas. Seismic instrumentation has been deployed to study physics of faulting—earthquake nucleation, propagation, and arrest—in order to test how laboratory-derived concepts scale up to earthquakes occurring in nature.

Published

2011

2. Low-Velocity Damage Zone on the San Andreas Fault at Depth near SAFOD Site at Parkfield Delineated by Fault- Zone Trapped Waves

Author

John E. Vidale, Peter E. Malin, and Yong-Gang Li

Subjects

SAFOD, Geology, QE1-996.5

Published

2007

3. Monitoring of Rock Mass Behavior at the Closest Proximity to Hypocenters in South African Gold Mines

Author

The Research Group for Semi-controlled Earthquake- Generation Experiments in South African Deep Gold Mines and Hiroshi Ogasawara

Subjects

SAFOD, Geology, QE1-996.5

Published

2007

4. Structure and Properties of the San Andreas Fault in Central California: Recent Results from the SAFOD Experiment

Author

Clifford Thurber, Steven Roecker, Naomi Boness, Peter Malin, Mark Zoback, William Ellsworth, and Stephen Hickman

Subjects

SAFOD, Geology, QE1-996.5

Published

2007

5. San Andreas Fault Zone Mineralogy, Geochemistry, and Physical Properties from SAFOD Cuttings and Core

Author

Diane E. Moore, Anja M. Schleicher, Ben A. van der, Frederick M. Chester, Judith S. Chester, David L. Kirschner, D.C. Barton, Sarah D. Draper, Jim P. Evans, Sheryl Tembe, David. A. Lockner, Stephen Hickman, John G. Solum, Carolyn Morrow, Kelly Bradbury, Wendy M. Calvin, and Teng-fong Wong

Subjects

SAFOD, Geology, QE1-996.5

Published

2007

6. Seismology inside the Fault Zone: Applications to Fault-Zone Properties and Rupture Dynamics

Author

Felix Waldhauser, Volker Oye, Clifford H. Thurber, Robert Nadeau, Steven W. Roecker, Kazutoshi Imanishi, Peter E. Malin, William L. Ellsworth, Namoi L. Boness, Stephen H. Hickman, and Mark D. Zoback

Subjects

SAFOD, Geology, QE1-996.5

Published

2007

7. SAFOD Phase III Core Sampling and Data Management at the Gulf Coast Repository

Author

David Lockner, Judith S. Chester, Frederick M. Chester, Phil Rumford, John Firth, and Bradley Weymer

Subjects

SAFOD, Geology, QE1-996.5

Abstract

The San Andreas Fault Observatory at Depth (SAFOD)project is yielding new insight into the San Andreas Fault (Zoback et al., 2010; Zoback et al., this issue). SAFOD drilling started in 2002 with a pilot hole, and proceeded with three phrases of drilling and coring during the summers of 2004, 2005, and 2007 (Fig. 1). One key component of theproject is curation, sampling, and documentation of SAFOD core usage at the Integrated Ocean Drilling Program’s (IODP) Gulf Coast Repository (GCR) at Texas A&M University. We present here the milestones accomplished over the past two years of sampling Phase III core at the GCR.

Published

2011

8. Electron Microscopy of Clay Minerals in Mudrocks from the San Andreas Fault Observatory at Depth (SAFOD)

Author

Laurence N. Warr, Ben A. van der Pluijm, Anja M. Schleicher, and John G. Solum

Subjects

SAFOD, Geology, QE1-996.5

Published

2007

9. New Developments in Long-Term Downhole Monitoring Arrays

Author

Jochem Kück and Bernhard Prevedel

Subjects

SAFOD, Geology, QE1-996.5

Abstract

The long-term observation of active geological processes is a major research goal in an increasing number of scientific drilling projects. An extended monitoring phase within a potentially hostile environment (e.g., temperature, pressure, salinity) requires new long-lasting and robust instrumentation currently unavailable from either industry or academia. Extended exposure of instrument packages to extreme conditions will typically cause seals to weaken and fail,electronic parts to break under permanent load, and sensors to degrade or develop strong drift. In the framework of scientific exploration, there are currently several major research projects targeting fault zone drilling and in situ measurements to monitor physical and chemical conditions before, during, and after seismic events. Planning has now begun for tool development, testing, and continuous long-term monitoring for the San Andreas Fault Zone Observatory at Depth, SAFOD (Parkfi eld, Calif., U.S.A.; See article on page 32.).

Published

2006

10. SAFOD Penetrates the San Andreas Fault

Author

Mark D. Zoback

Subjects

SAFOD, Geology, QE1-996.5

Abstract

SAFOD, the San Andreas Fault Observatory at Depth (Fig. 1), completed an important milestone in July 2005 by drilling through the San Andreas Fault at seismogenic depth. SAFOD is one of three major components of EarthScope, a U.S. National Science Foundation (NSF) initiative being conducted in collaboration with the U.S. Geological Survey (USGS). The International Continental Scientific DrillingProgram (ICDP) provides engineering and technical support for the project as well as online access to project data and information (http://www.icdp-online.de/sites/sanandreas/news/news1.html). In 2002, the ICDP, the NSF, and the USGS provided funding for a pilot hole project at the SAFOD site. Twenty scientifi c papers summarizing the results of the pilot hole project as well as pre-SAFOD site characterization studies were published in Geophysical Research Letters (Vol.31, Nos. 12 and 15, 2004).

Published

2006