Nicholas (Nick) M Beeler
Nick Beeler is a scientist in the Earthquake Science Center.
Science and Products
Filter Total Items: 58
Laboratory observations of fault strength in response to changes in normal stress Laboratory observations of fault strength in response to changes in normal stress
Changes in fault normal stress can either inhibit or promote rupture propagation, depending on the fault geometry and on how fault shear strength varies in response to the normal stress change. A better understanding of this dependence will lead to improved earthquake simulation techniques, and ultimately, improved earthquake hazard mitigation efforts. We present the results of new...
Authors
Brian D. Kilgore, Julian Lozos, Nicholas M. Beeler, David Oglesby
Constructing constitutive relationships for seismic and aseismic fault slip Constructing constitutive relationships for seismic and aseismic fault slip
For the purpose of modeling natural fault slip, a useful result from an experimental fault mechanics study would be a physically-based constitutive relation that well characterizes all the relevant observations. This report describes an approach for constructing such equations. Where possible the construction intends to identify or, at least, attribute physical processes and contact...
Authors
N.M. Beeler
Constitutive relationships and physical basis of fault strength due to flash heating Constitutive relationships and physical basis of fault strength due to flash heating
We develop a model of fault strength loss resulting from phase change at asperity contacts due to flash heating that considers a distribution of contact sizes and nonsteady state evolution of fault strength with displacement. Laboratory faulting experiments conducted at high sliding velocities, which show dramatic strength reduction below the threshold for bulk melting, are well fit by...
Authors
N.M. Beeler, T.E. Tullis, D.L. Goldsby
The instantaneous rate dependence in low temperature laboratory rock friction and rock deformation experiments The instantaneous rate dependence in low temperature laboratory rock friction and rock deformation experiments
[1] Earthquake occurrence probabilities that account for stress transfer and time-dependent failure depend on the product of the effective normal stress and a lab-derived dimensionless coefficient a. This coefficient describes the instantaneous dependence of fault strength on deformation rate, and determines the duration of precursory slip. Although an instantaneous rate dependence is...
Authors
N.M. Beeler, T.E. Tullis, A. K. Kronenberg, L.A. Reinen
Stress-induced, time-dependent fracture closure at hydrothermal conditions Stress-induced, time-dependent fracture closure at hydrothermal conditions
Time-dependent closure of fractures in quartz was measured in situ at 22–530°C temperature and 0.1-150 MPa water pressure. Unlike previous crack healing and rock permeability studies, in this study, fracture aperture is monitored directly and continuously using a windowed pressure vessel, a long-working-distance microscope, and reflected-light interferometry. Thus the fracture volume and...
Authors
N.M. Beeler, S.H. Hickman
Science and Products
Filter Total Items: 58
Laboratory observations of fault strength in response to changes in normal stress Laboratory observations of fault strength in response to changes in normal stress
Changes in fault normal stress can either inhibit or promote rupture propagation, depending on the fault geometry and on how fault shear strength varies in response to the normal stress change. A better understanding of this dependence will lead to improved earthquake simulation techniques, and ultimately, improved earthquake hazard mitigation efforts. We present the results of new...
Authors
Brian D. Kilgore, Julian Lozos, Nicholas M. Beeler, David Oglesby
Constructing constitutive relationships for seismic and aseismic fault slip Constructing constitutive relationships for seismic and aseismic fault slip
For the purpose of modeling natural fault slip, a useful result from an experimental fault mechanics study would be a physically-based constitutive relation that well characterizes all the relevant observations. This report describes an approach for constructing such equations. Where possible the construction intends to identify or, at least, attribute physical processes and contact...
Authors
N.M. Beeler
Constitutive relationships and physical basis of fault strength due to flash heating Constitutive relationships and physical basis of fault strength due to flash heating
We develop a model of fault strength loss resulting from phase change at asperity contacts due to flash heating that considers a distribution of contact sizes and nonsteady state evolution of fault strength with displacement. Laboratory faulting experiments conducted at high sliding velocities, which show dramatic strength reduction below the threshold for bulk melting, are well fit by...
Authors
N.M. Beeler, T.E. Tullis, D.L. Goldsby
The instantaneous rate dependence in low temperature laboratory rock friction and rock deformation experiments The instantaneous rate dependence in low temperature laboratory rock friction and rock deformation experiments
[1] Earthquake occurrence probabilities that account for stress transfer and time-dependent failure depend on the product of the effective normal stress and a lab-derived dimensionless coefficient a. This coefficient describes the instantaneous dependence of fault strength on deformation rate, and determines the duration of precursory slip. Although an instantaneous rate dependence is...
Authors
N.M. Beeler, T.E. Tullis, A. K. Kronenberg, L.A. Reinen
Stress-induced, time-dependent fracture closure at hydrothermal conditions Stress-induced, time-dependent fracture closure at hydrothermal conditions
Time-dependent closure of fractures in quartz was measured in situ at 22–530°C temperature and 0.1-150 MPa water pressure. Unlike previous crack healing and rock permeability studies, in this study, fracture aperture is monitored directly and continuously using a windowed pressure vessel, a long-working-distance microscope, and reflected-light interferometry. Thus the fracture volume and...
Authors
N.M. Beeler, S.H. Hickman