Nicholas (Nick) M Beeler
Nick Beeler is a scientist in the Earthquake Science Center.
Science and Products
Filter Total Items: 58
Attempting to bridge the gap between laboratory and seismic estimates of fracture energy Attempting to bridge the gap between laboratory and seismic estimates of fracture energy
To investigate the behavior of the fracture energy associated with expanding the rupture zone of an earthquake, we have used the results of a large-scale, biaxial stick-slip friction experiment to set the parameters of an equivalent dynamic rupture model. This model is determined by matching the fault slip, the static stress drop and the apparent stress. After confirming that the...
Authors
Art McGarr, Joe B. Fletcher, N.M. Beeler
On the expected relationships among apparent stress, static stress drop, effective shear fracture energy, and efficiency On the expected relationships among apparent stress, static stress drop, effective shear fracture energy, and efficiency
We consider expected relationships between apparent stress τa and static stress drop Δτs using a standard energy balance and find τa = Δτs (0.5 - ξ), where ξ is stress overshoot. A simple implementation of this balance is to assume overshoot is constant; then apparent stress should vary linearly with stress drop, consistent with spectral theories (Brune, 1970) and dynamic crack models...
Authors
N.M. Beeler, T.-F. Wong, S.H. Hickman
Why earthquakes correlate weakly with the solid Earth tides: Effects of periodic stress on the rate and probability of earthquake occurrence Why earthquakes correlate weakly with the solid Earth tides: Effects of periodic stress on the rate and probability of earthquake occurrence
We provide an explanation why earthquake occurrence does not correlate well with the daily solid Earth tides. The explanation is derived from analysis of laboratory experiments in which faults are loaded to quasiperiodic failure by the combined action of a constant stressing rate, intended to simulate tectonic loading, and a small sinusoidal stress, analogous to the Earth tides. Event...
Authors
N.M. Beeler, D.A. Lockner
32 - Rock failure and earthquakes 32 - Rock failure and earthquakes
This chapter summarizes experimental observations and related theoretical developments of faulted and intact rock properties related to earthquake nucleation, failure and dynamic slip. We will be concerned primarily with earthquakes occurring in the brittle crust. Intermediate and deep-focus earthquakes have unique mechanical considerations that are discussed in Section 7. We focus on...
Authors
David A. Lockner, Nicholas M. Beeler
Stress drop with constant, scale independent seismic efficiency and overshoot Stress drop with constant, scale independent seismic efficiency and overshoot
To model dissipated and radiated energy during earthquake stress drop, I calculate dynamic fault slip using a single degree of freedom spring-slider block and a laboratory-based static/kinetic fault strength relation with a dynamic stress drop proportional to effective normal stress. The model is scaled to earthquake size assuming a circular rupture; stiffness varies inversely with...
Authors
N.M. Beeler
A simple stick-slip and creep-slip model for repeating earthquakes and its implication for microearthquakes at Parkfield A simple stick-slip and creep-slip model for repeating earthquakes and its implication for microearthquakes at Parkfield
If repeating earthquakes are represented by circular ruptures, have constant stress drops, and experience no aseismic slip, then their recurrence times should vary with seismic moment as tr ?? Mo1/3. In contrast, the observed variation for small, characteristic repeating earthquakes along a creeping segment of the San Andreas fault at Parkfield (Nadeau and Johnson, 1998) is much weaker...
Authors
N.M. Beeler, D.L. Lockner, S.H. Hickman
Science and Products
Filter Total Items: 58
Attempting to bridge the gap between laboratory and seismic estimates of fracture energy Attempting to bridge the gap between laboratory and seismic estimates of fracture energy
To investigate the behavior of the fracture energy associated with expanding the rupture zone of an earthquake, we have used the results of a large-scale, biaxial stick-slip friction experiment to set the parameters of an equivalent dynamic rupture model. This model is determined by matching the fault slip, the static stress drop and the apparent stress. After confirming that the...
Authors
Art McGarr, Joe B. Fletcher, N.M. Beeler
On the expected relationships among apparent stress, static stress drop, effective shear fracture energy, and efficiency On the expected relationships among apparent stress, static stress drop, effective shear fracture energy, and efficiency
We consider expected relationships between apparent stress τa and static stress drop Δτs using a standard energy balance and find τa = Δτs (0.5 - ξ), where ξ is stress overshoot. A simple implementation of this balance is to assume overshoot is constant; then apparent stress should vary linearly with stress drop, consistent with spectral theories (Brune, 1970) and dynamic crack models...
Authors
N.M. Beeler, T.-F. Wong, S.H. Hickman
Why earthquakes correlate weakly with the solid Earth tides: Effects of periodic stress on the rate and probability of earthquake occurrence Why earthquakes correlate weakly with the solid Earth tides: Effects of periodic stress on the rate and probability of earthquake occurrence
We provide an explanation why earthquake occurrence does not correlate well with the daily solid Earth tides. The explanation is derived from analysis of laboratory experiments in which faults are loaded to quasiperiodic failure by the combined action of a constant stressing rate, intended to simulate tectonic loading, and a small sinusoidal stress, analogous to the Earth tides. Event...
Authors
N.M. Beeler, D.A. Lockner
32 - Rock failure and earthquakes 32 - Rock failure and earthquakes
This chapter summarizes experimental observations and related theoretical developments of faulted and intact rock properties related to earthquake nucleation, failure and dynamic slip. We will be concerned primarily with earthquakes occurring in the brittle crust. Intermediate and deep-focus earthquakes have unique mechanical considerations that are discussed in Section 7. We focus on...
Authors
David A. Lockner, Nicholas M. Beeler
Stress drop with constant, scale independent seismic efficiency and overshoot Stress drop with constant, scale independent seismic efficiency and overshoot
To model dissipated and radiated energy during earthquake stress drop, I calculate dynamic fault slip using a single degree of freedom spring-slider block and a laboratory-based static/kinetic fault strength relation with a dynamic stress drop proportional to effective normal stress. The model is scaled to earthquake size assuming a circular rupture; stiffness varies inversely with...
Authors
N.M. Beeler
A simple stick-slip and creep-slip model for repeating earthquakes and its implication for microearthquakes at Parkfield A simple stick-slip and creep-slip model for repeating earthquakes and its implication for microearthquakes at Parkfield
If repeating earthquakes are represented by circular ruptures, have constant stress drops, and experience no aseismic slip, then their recurrence times should vary with seismic moment as tr ?? Mo1/3. In contrast, the observed variation for small, characteristic repeating earthquakes along a creeping segment of the San Andreas fault at Parkfield (Nadeau and Johnson, 1998) is much weaker...
Authors
N.M. Beeler, D.L. Lockner, S.H. Hickman