Physics
Scientific paper
Jan 1999
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1999georl..26..115g&link_type=abstract
Geophysical Research Letters, Volume 26, Issue 1, p. 115-118
Physics
17
Seismology: Earthquake Dynamics And Mechanics, Seismology: Seismicity And Seismotectonics, Structural Geology: Fractures And Faults, Structural Geology: Role Of Fluids
Scientific paper
Using the average aspect (length/maximum thickness) ratios of 379 mineral-filled extension (mode I) veins from an active fault zone, the fluid overpressure, during their development, with reference to the minimum compressive principal stress, σ3, is estimated at 20 MPa. Emplacement of such veins increases σ3 and can generate a temporary stress barrier to the propagation of subsequent hydrofractures. On meeting a subhorizontal stress barrier, vertically propagating hydrofractures may change into water sills where the fluid pressure is at or above lithostatic. In this model, stress barriers, and thus water sills, can form at any depth in, and in any type of, fault zones. For such a high fluid pressure, the product of the coefficient of sliding friction and the normal stress in the Modified Griffith Criterion becomes essentially zero and the driving stress associated with faulting equal to twice the in situ tensile strength of the host rock. For typical in situ tensile strengths of 2-3 MPa, the driving stresses for slip on overpressured fault planes is 4-6 MPa. These results are in good agreement with the commonly measured average static stress drops of 3-6 MPa during earthquakes.
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