Abstract
We discuss the effects of rate-dependent friction on the propagation of seismic rupture on active faults. Several physicists using Burridge and Knopoff's box and spring model of faulting have proposed that fault complexity may arise from the spontaneous development of a self-similar stress distribution on the fault plane. If this model proves to be correct, it has important consequences for the origin of the complexity of seismic sources. In order to test these ideas on a more realistic earthquake model, we developed a new boundary integral equation method for studying rupture propagation along an antiplane fault in the presence of nonlinear rate-dependent friction. We study rupture dynamics of models with single and twin asperities. In our models, asperities are places on the fault with a higher value of prestress. Othewise all fault parameters are homogeneous. We show that for models with such asperities, a slip velocity weakening friction leads to the propagation of supersonic healing phases and to the spontaneous arrest of fracture if the prestress outside the asperities is low enough. For models with asperities, we can also observe narrow slip velocity pulses, qualitatively similar to the so-called Heaton pulses observed in some earthquake accelerograms. We also observe a complex distribution of stress after the rupture that depends on details of the initial distribution of asperities and on the details of the friction law.
Similar content being viewed by others
References
Aki, K., andRichards, P. G.,Quantitative Seismology (New York, Freemann 1980).
Brace, W. F., andByerly, J. D., (1966),Stick Slip as a Mechanism for Earthquake, Science153 990–992.
Burridge, R. (1969),The Numerical Solution of Certain Integral Equations with Nonintegrable Kernels Arising in the Theory of Crack Propagation and Elastic Wave Diffraction, Phil. Trans. R. Soc. A265, 363–381.
Burridge, R., andKnopoff, L. (1967),Model and Theoretical Seismicity, Bull. Seismol. Soc. Am.57, 341–371.
Cao, T., andAki, K. (1986),Seismicity Simulation with Rate-and State-dependent Friction Law, Pure Appl. Geophys.124, 487–513.
Carlson, J. M., andLanger, J. S. (1989),A Mechanical Model of an Earthquake Fault, Phys. Rev. A Gen. Phys.40, 6470–6484.
Compte, D., Eisenberg, A., Lorca, E., Pardo, M., Ponce, L., Saragoni, R., Singh, K., andSuárez, G. (1986),The 1985 Central Chile Earthquake: A Repeat of Previous Great Earthquakes in the Region?, Science233, 449–453.
Das, S., andAki, K. (1977a),A Numerical Study of Two-dimensional Spontaneous Rutpure Propagation, Geophys. J. R. Astr. Soc.62, 591–604.
Das, S., andAki, K. (1977b),Fault Plane with Barriers: A Versatile Earthquake Model, J. Geophys. Res82, 5658–5670.
Das, S., andKostrov, B. V. (1988),An Investigation of the Complexity of the Earthquake Source Time Function Using Dynamic Faulting Models, J. Geophys. Res.93, 8035–8050.
Dieterich, H. (1972),Time-dependent Friction as a Possible Mechanism for Aftershocks, J. Geophys. Res.77, 3771–3781.
Gu, J.-C., Rice, J. R., Ruina, A. R., andTse, S. (1984),Slip Motion and Stability a Single Degrea of Freedom Elastic System with Rate-and State-dependent Friction, J. Mech. Phys. Solids32, 167–196.
Heaton, T. H. (1990),Evidence for and Implications of Self-healing Pulses of Slip in Earthquake Rupture, Phys. Earth Planet. Int.64, 1–20.
Kanamori, H., andStewart, G. (1978),Seismological Aspects of the Guatemala Earthquake of February 4, 1976, J. Geophys. Res.83, 3427–3434.
Koller, M., Bonnet, M., andMadariaga, R. (1992),Modelling of Dynamical Crack Propagation Using Regularized Time-domain Boundary Integral Equation, Wave Motion16, 339–366.
Korrat, I., andMadariaga, R.,Rupture of the Valparaiso (Chile) Gap from 1971 to 1985. InEarthquake Source Mechanics (eds. Das, S., Boatwright, J., and Scholz, C. H.) (AGU, Washington, DC 1986) pp. 247–258.
Kostrov, B. V. (1964),Selfsimilar Problems of Propagation of Shear Cracks, J. Appl. Math. Mech.28, 1077–1087.
Kostrov, B. V. (1966),Unsteady Propagation of Longitudinal Shear Cracks, J. Appl. Math. Mech.30, 1241–1248.
Madariaga, R. (1979),On the Relationship between Seismic Moment and Stress Drop in the Presence of Stress and Strength Heterogeneity, J. Geophys. Res.84, 2243–2249.
Madariaga, R. (1983),High Frequency Radiation from Dynamic Earthquake Fault Models, Annales Geophysicae1, 17–23.
Madariaga, R., andCochard, A. (1992),Heterogenous Faulting and Friction, International Symposium on Earthquake Disaster Prevention-Mexico City.
Okubo, P. (1989),Dynamic Rupture Modeling with Laboratory-derived Constitutive Relations, J. Geophys. Res.94, 12321–12335.
Rice, J. R. (1993),Spatio-temporal Complexity of Slip on a Fault, J. Geophys. Res.98, 9885–9907.
Rice, J. R., andRuina, A. (1983),Stability of Steady Frictional Slipping, J. Applied Mech.50, 343–349.
Schwartz, D., andCoppersmith, K. (1984),Fault Behaviour and Characteristic Earthquakes: Examples from the Wasacht and San Andreas Fault Zones, J. Geophys. Res.89, 5681–5689.
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Cochard, A., Madariaga, R. Dynamic faulting under rate-dependent friction. PAGEOPH 142, 419–445 (1994). https://doi.org/10.1007/BF00876049
Received:
Revised:
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF00876049