Nicholas (Nick) M Beeler
Nick Beeler is a scientist in the Earthquake Science Center.
Science and Products
Filter Total Items: 58
Transient triggering of near and distant earthquakes Transient triggering of near and distant earthquakes
We demonstrate qualitatively that frictional instability theory provides a context for understanding how earthquakes may be triggered by transient loads associated with seismic waves from near and distance earthquakes. We assume that earthquake triggering is a stick-slip process and test two hypotheses about the effect of transients on the timing of instabilities using a simple spring...
Authors
J. Gomberg, M.L. Blanpied, N.M. Beeler
Frictional behavior of large displacement experimental faults Frictional behavior of large displacement experimental faults
The coefficient of friction and velocity dependence of friction of initially bare surfaces and 1-mm-thick simulated fault gouges (400 mm at 25°C and 25 MPa normal stress. Steady state negative friction velocity dependence and a steady state fault zone microstructure are achieved after ∼18 mm displacement, and an approximately constant strength is reached after a few tens of millimeters...
Authors
N.M. Beeler, T.E. Tullis, M.L. Blanpied, J.D. Weeks
Self-healing slip pulses in dynamic rupture models due to velocity-dependent strength Self-healing slip pulses in dynamic rupture models due to velocity-dependent strength
Seismological observations of short slip duration on faults (short rise time on seismograms) during earthquakes are not consistent with conventional crack models of dynamic rupture and fault slip. In these models, the leading edge of rupture stops only when a strong region is encountered, and slip at an interior point ceases only when waves from the stopped edge of slip propagate back to...
Authors
N.M. Beeler, T.E. Tullis
Implications of Coulomb plasticity for the velocity dependence of experimental faults Implications of Coulomb plasticity for the velocity dependence of experimental faults
Simulated fault gouges often deform more stably than initially bare surfaces of the same composition. It is important to understand why the sliding stability is enhanced because the presence of gouge on natural faults may have the same effect as seen in experiments, and thus explain the absence of earthquakes at shallow depths. Gouge stabilization in experiments has been attributed to...
Authors
N.M. Beeler, T.E. Tullis
Science and Products
Filter Total Items: 58
Transient triggering of near and distant earthquakes Transient triggering of near and distant earthquakes
We demonstrate qualitatively that frictional instability theory provides a context for understanding how earthquakes may be triggered by transient loads associated with seismic waves from near and distance earthquakes. We assume that earthquake triggering is a stick-slip process and test two hypotheses about the effect of transients on the timing of instabilities using a simple spring...
Authors
J. Gomberg, M.L. Blanpied, N.M. Beeler
Frictional behavior of large displacement experimental faults Frictional behavior of large displacement experimental faults
The coefficient of friction and velocity dependence of friction of initially bare surfaces and 1-mm-thick simulated fault gouges (400 mm at 25°C and 25 MPa normal stress. Steady state negative friction velocity dependence and a steady state fault zone microstructure are achieved after ∼18 mm displacement, and an approximately constant strength is reached after a few tens of millimeters...
Authors
N.M. Beeler, T.E. Tullis, M.L. Blanpied, J.D. Weeks
Self-healing slip pulses in dynamic rupture models due to velocity-dependent strength Self-healing slip pulses in dynamic rupture models due to velocity-dependent strength
Seismological observations of short slip duration on faults (short rise time on seismograms) during earthquakes are not consistent with conventional crack models of dynamic rupture and fault slip. In these models, the leading edge of rupture stops only when a strong region is encountered, and slip at an interior point ceases only when waves from the stopped edge of slip propagate back to...
Authors
N.M. Beeler, T.E. Tullis
Implications of Coulomb plasticity for the velocity dependence of experimental faults Implications of Coulomb plasticity for the velocity dependence of experimental faults
Simulated fault gouges often deform more stably than initially bare surfaces of the same composition. It is important to understand why the sliding stability is enhanced because the presence of gouge on natural faults may have the same effect as seen in experiments, and thus explain the absence of earthquakes at shallow depths. Gouge stabilization in experiments has been attributed to...
Authors
N.M. Beeler, T.E. Tullis