Presentation is loading. Please wait.

Presentation is loading. Please wait.

Mechanical behavior and the degree of localization in large displacement faulting experiments N. M. Beeler and T. E. Tullis, Brown University, Providence,

Published byMatilda Morris Modified over 8 years ago

Similar presentations

Presentation on theme: "Mechanical behavior and the degree of localization in large displacement faulting experiments N. M. Beeler and T. E. Tullis, Brown University, Providence,"— Presentation transcript:

1 Mechanical behavior and the degree of localization in large displacement faulting experiments N. M. Beeler and T. E. Tullis, Brown University, Providence, RI [Chester et al.., 1993] 1 mm 2 to 4 km depth,  =d/w=508 (Chester et al., 1993) (2) (4) 1 mm

2 1. Description of experiments and conditions - intially bare surfaces - gouges 2. Granite: Textures and mechanical behavior 3. Implications for seismic faulting 4. General conclusions Deformation and mechanical behavior large displacement faulting experiments Power et al., 1989; Yund et al., 1990 Beeler et al., 1996 Blanpied and Beeler, 1998 {

3 Conditions in experiments: dry, room temperature

4 rate dependence of strength (e.g., Dieterich 1978;1979) dilatancy (e.g., Morrow and Byerlee, 1989; Marone et al., 1990) Measurements velocity weakening velocity strengthening

5 Fault configurations

6 Initially bare surfaces

7 d=376mm  =4800, ~ 60% amorphous material [Yund et al., 1990],  c =0.62MPa

8 natural faulting (from Power et al., 1989) oops, too much strain!  =1000  =10

9 Simulated gouge

10 (from Beeler et al., 1996) d=10 mm  =13

11 d=65 mm  =75 (from Blanpied and Beeler, 1998)

12 d=194 mm  =255

13 d=407 mm  =530 (from Blanpied and Beeler, 1998)

14 (Charles and Hillig, 1962) Subcritical fracture growth (Atkinson, 1987) (also see Scholz, 1968; Das and Scholz, 1981)

15 Characteristics of seismic failure in the laboratory (from Beeler and Lockner, 2002) Simple friction or fracture based relation for seismic failure Dieterich, 1992 Lockner, 1998 Marcellini, 1995 Shaw, 1993 Atkinson, 1984 Das and Scholz, 1981 Knopoff, 1969 Scholz, 1968 Griggs, 1940

16 Predicted duration of earthquake nucleation = 10MPa/75 yr a =0.0045  n =18MPa/km Depth 5 - 15 km t n = 11 - 33 days (Dieterich, 1994) Implications of delayed failure: Earthquake occurrence insensitive to periodic stress of periodless than the delay time Lab-based prediction: earthquake occurrence should not correlate with the passage of seismic waves and daily earthtides

17 Summary of laboratory observations: Deformation in laboratory faulting experiments is accommodated by rigid rotation, sliding between particles and grain fracture. Grain-size reduction from fracture accompanies shear localization Shear localization is required for seismic faulting Seismic failure is delayed, defining a duration of nucleation Conclusions: Fault deformation during and prior to earthquake occurrence involves grain- scale fracturing The duration of nucleation for earthquakes is long (> 1 week) Duration is likely due to short term non-linear viscous effect from sub-critical fracture growth

Download ppt "Mechanical behavior and the degree of localization in large displacement faulting experiments N. M. Beeler and T. E. Tullis, Brown University, Providence,"

Similar presentations

Strain localization and the onset of dynamic weakening in granular fault gouge Steven Smith 1, Stefan Nielsen 1, Giulio Di Toro 1,2 INGV, Rome 1 ; University.

Strain localization and the onset of dynamic weakening in granular fault gouge Steven Smith 1, Stefan Nielsen 1, Giulio Di Toro 1,2 INGV, Rome 1 ; University.
(Introduction to) Earthquake Energy Balance

(Introduction to) Earthquake Energy Balance
SINTEF Petroleum Research The strength of fractured rock Erling Fjær SINTEF Petroleum Research 1.

SINTEF Petroleum Research The strength of fractured rock Erling Fjær SINTEF Petroleum Research 1.
Stress and Deformation: Part II (D&R, 304-319; 126-149) 1. Anderson's Theory of Faulting 2. Rheology (mechanical behavior of rocks) - Elastic: Hooke's.

Stress and Deformation: Part II (D&R, ; ) 1. Anderson's Theory of Faulting 2. Rheology (mechanical behavior of rocks) - Elastic: Hooke's.
Lithospheric flexure at the Hawaiian Islands and its implications for mantle rheology Perspective view (to the NW) of the satellite-derived free-air gravity.

Lithospheric flexure at the Hawaiian Islands and its implications for mantle rheology Perspective view (to the NW) of the satellite-derived free-air gravity.
Stress and Deformation: Part I (D&R, 122-126; 226-252) The goal for today is to explore the stress conditions under which rocks fail (e.g., fracture),

Stress and Deformation: Part I (D&R, ; ) The goal for today is to explore the stress conditions under which rocks fail (e.g., fracture),
Lawrence Livermore National Laboratory Lawrence Livermore National Laboratory, P. O. Box 808, Livermore, CA 94551 This work performed under the auspices.

Lawrence Livermore National Laboratory Lawrence Livermore National Laboratory, P. O. Box 808, Livermore, CA This work performed under the auspices.
‘Triggering’ = a perturbation in the loading deformation that leads to a change in the probability of failure. Overview of Evidence for Dynamic Triggering.

‘Triggering’ = a perturbation in the loading deformation that leads to a change in the probability of failure. Overview of Evidence for Dynamic Triggering.
FAULT ZONE FABRIC AND FAULT WEAKNESS Cristiano Collettini, Andre Niemeijer, Cecilia Viti & Chris Marone Nature 2009.

FAULT ZONE FABRIC AND FAULT WEAKNESS Cristiano Collettini, Andre Niemeijer, Cecilia Viti & Chris Marone Nature 2009.
Strain Localization and Ductile Failure in Feldspar Rocks Georg Dresen and Erik Rybacki GFZ German Research Center of Geosciences.

Strain Localization and Ductile Failure in Feldspar Rocks Georg Dresen and Erik Rybacki GFZ German Research Center of Geosciences.
Mechanics of Earthquakes and Faulting www.geosc.psu.edu/Courses/Geosc508 Lecture 5, 12 Sep. 2013 Fluids: Mechanical, Chemical Effective Stress Dilatancy.

Mechanics of Earthquakes and Faulting Lecture 5, 12 Sep Fluids: Mechanical, Chemical Effective Stress Dilatancy.
Friction Why friction? Because slip on faults is resisted by frictional forces. In the coming weeks we shall discuss the implications of the friction law.

Friction Why friction? Because slip on faults is resisted by frictional forces. In the coming weeks we shall discuss the implications of the friction law.
Strength of the lithosphere: Constraints imposed by laboratory experiments David Kohlstedt Brian Evans Stephen Mackwell.

Strength of the lithosphere: Constraints imposed by laboratory experiments David Kohlstedt Brian Evans Stephen Mackwell.
Laboratory experiments Triaxial test with saw-cut Resistance of jacket Limited displacement Easy to control pore pressure High normal stress is possible.

Laboratory experiments Triaxial test with saw-cut Resistance of jacket Limited displacement Easy to control pore pressure High normal stress is possible.
The Seismogenic Zone Experiment Revisited MARGINS Theoretical Institute The Seismogenic Zone Revisited Fault Friction and the Transition From Seismic.

The Seismogenic Zone Experiment Revisited MARGINS Theoretical Institute The Seismogenic Zone Revisited Fault Friction and the Transition From Seismic.
Tidal triggering of earthquakes: Response to fault compliance? Elizabeth S. Cochran IGPP, Scripps.

Tidal triggering of earthquakes: Response to fault compliance? Elizabeth S. Cochran IGPP, Scripps.
Earthquakes.  Natural vibrations of the ground caused by movement at faults  Faults: Fracture in the Earth’s crust Faults form when rocks break deep.

Earthquakes.  Natural vibrations of the ground caused by movement at faults  Faults: Fracture in the Earth’s crust Faults form when rocks break deep.
Earthquake dynamics at the crossroads between seismology, mechanics and geometry Raúl Madariaga, Mokhtar Adda-Bedia ENS Paris, Jean-Paul Ampuero, ETH Zürich,

Earthquake dynamics at the crossroads between seismology, mechanics and geometry Raúl Madariaga, Mokhtar Adda-Bedia ENS Paris, Jean-Paul Ampuero, ETH Zürich,
Announcements This week's lab: 1-3 PM with Andrew McCarthy. Please come prepared with specific questions. There will be no lecture this Wednesday! Please.

Announcements This week's lab: 1-3 PM with Andrew McCarthy. Please come prepared with specific questions. There will be no lecture this Wednesday! Please.
Friction: Leonardo Da Vinci Amonton Bowden and Tabor Dieterich.

Friction: Leonardo Da Vinci Amonton Bowden and Tabor Dieterich.

Similar presentations

Ads by Google