Direct observation of frictional contacts: New insights for state-dependent properties

James H. Dieterich; Brian D. Kilgore

doi:10.1007/bf00874332

journal article Mar 01, 1994

Direct observation of frictional contacts: New insights for state-dependent properties

James H. Dieterich Brian D. Kilgore

Pure and Applied Geophysics Vol. 143 No. 1-3 pp. 283-302 · Springer Science and Business Media LLC

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References

28

[1]

Blanpied, M. L., andTullis, T. E. (1986),The Stability and Behavior of a Frictional System with a Two State Variable Constitutive Law, Pure and Appl. Geophys.124, 415–444. 10.1007/bf00877210

[2]

Blanpied, M. L., Lockner, D. A., andByerlee, J. D. (1991),Fault Stability Inferred from Granite Sliding Experiments at Hydrothermal Conditions, Geophys. Res. Lett18, 609–612. 10.1029/91gl00469

[3]

Bowden, F. B., andTabor, D.,The Friction and Lubrication of Solids, v. 2 (Clarendon, Oxford 1964).

[4]

Modeling of rock friction: 1. Experimental results and constitutive equations

James H. Dieterich

Journal of Geophysical Research: Oceans 1979 10.1029/jb084ib05p02161

[5]

Dieterich, J. H.,Constitutive properties of faults with simulated gouge. InMechanical Behavior of Crustal Rocks, Geophysical Monograph 24 (eds. Carter, N. L., Friedman, M., Logan, J. M., and Stearns, D. W.) (Am. Geophys. Union, Washington, D. C. 1981) pp. 103–120.

[6]

Dieterich, J. H. (1992),Earthquake Nucleation of Faults with Rate- and State-dependent Strength, Tectonophysics211, 115–134. 10.1016/0040-1951(92)90055-b

[7]

A constitutive law for rate of earthquake production and its application to earthquake clustering

James Dieterich

Journal of Geophysical Research: Oceans 1994 10.1029/93jb02581

[8]

Dieterich, J. H., andConrad, G. (1984),Effect of Humidity on Time- and Velocity-dependent Friction in Rocks, J. Geophys. Res.89, 4196–4202. 10.1029/jb089ib06p04196

[9]

Dieterich, J. H., andLinker, M. F. (1992),Fault Stability under Conditions of Variable Normal Stress, Geophys. Res. Lett.19, 1691–1694. 10.1029/92gl01821

[10]

Dupont, P., andDunlap, E. (1993),Friction Modeling and Control In Boundary Lubrication, Proc. 1993 American Control Conference, San Francisco, CA, June, 1910–1914. 10.23919/acc.1993.4793210

[11]

Evans, B. (1984),The Effect of Temperature and Imurity Content on Indentation Hardness of Quartz, J. Geophys. Res.89, 4213–4222. 10.1029/jb089ib06p04213

[12]

Gu, Y., andWong, T.-F. (1991),Effects of Loading Velocity, Stiffness, and Inertia on the Dynamics of a Single Degree of Freedom Spring-slider System, J. Geophys. Res.96, 21677–21691. 10.1029/91jb02271

[13]

Johnson, K. L.,Contact Mechanics (Cambridge University Press, Cambridge 1985). 10.1017/cbo9781139171731

[14]

Kilgore, B. D., Blanpied, M. L., andDieterich, J. H. (1993),Velocity-dependent Friction of Granite over a Wide Range of Conditions, Geophys. Res. Lett20, 903–906. 10.1029/93gl00368

[15]

Kragelskii, I. V.,Friction and Wear (Butterworths, Washington, D. C. 1965).

[16]

Effects of variable normal stress on rock friction: Observations and constitutive equations

M. F. Linker, J. H. Dieterich

Journal of Geophysical Research: Oceans 1992 10.1029/92jb00017

[17]

Marone, C. J., Scholz, C. H., andBilham, R. (1991),On the Mechanics of Earthquake Afterslip, J. Geophys, Res.96, 8441–8452. 10.1029/91jb00275

[18]

McClintock, F., andArgon, A. S.,Mechanical Behavior of Materials (Addison-Wesley, Reading, Mass. 1966).

[19]

Okubo, P. G. (1989),Dynamic Rupture Modeling with Laboratory-derived Constitutive Relations, J. Geophys. Res.94, 12321–12335. 10.1029/jb094ib09p12321

[20]

Rabinowicz, E.,Friction and Wear of Materials (John Wiley, New York 1965).

[21]

Rice, J. R., andGu, J.-C. (1983),Earthquake Aftereffects and Triggered Seismic Phenomena, Pure and Appl. Geophys.121, 187–219. 10.1007/bf02590135

[22]

Rice, J. R., andRuina, A. L. (1983),Stability of Steady-state Frictional Slipping, J. Appl. Mech.50, 343–349. 10.1115/1.3167042

[23]

Ruina, A. L. (1983),Slip Instability and State Variable Friction Laws, J. Geophys. Res.88, 10359–10370. 10.1029/jb088ib12p10359

[24]

Scholz, C. H. (1988),The Critical Slip Distance for Seismic Faulting, Nature336, 761–763. 10.1038/336761a0

[25]

Stuart, W. D. (1988),Forecast Model for Great Earthquakes at the Nankai Trough Subduction Zone, Pure and Appl. Geophys.126, 619–641. 10.1007/bf00879012

[26]

Tabor, D. (1970),The Hardness of Solids, Rev. Phys. Technol.1, 145–179. 10.1088/0034-6683/1/3/i01

[27]

Tse, S. T., andRice, J. R. (1986),Crustal Earthquake Instability In Relation to the Depth Variation of Frictional Slip Properties, J. Geophys. Res.91, 9452–9472. 10.1029/jb091ib09p09452

[28]

Tullis, T. E., andWeeks, J. D. (1986),Constitutive Behavior and Stability of Frictional Sliding of Granite, Pure and Appl. Geophys.124, 384–414.

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Published: Mar 01, 1994
Vol/Issue: 143(1-3)
Pages: 283-302
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Cite This Article

James H. Dieterich, Brian D. Kilgore (1994). Direct observation of frictional contacts: New insights for state-dependent properties. Pure and Applied Geophysics, 143(1-3), 283-302. https://doi.org/10.1007/bf00874332

Direct observation of frictional contacts: New insights for state-dependent properties

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