ICF13B

13th International Conference on Fracture June 16–21, 2013, Beijing, China -9- [10] F. Heslot, T. Baumberger, B. Perrin, B. Caroli, C. Caroli, Creep, stick-slip, and dry-friction dynamics: Experiments and a heuristic model, Physical review E, 49 (1994) 4973-4988. [11] A. Ruina, Slip instability and state variable friction laws, J Geophys Res, 88 (1986) 10359-10370. [12] C. Marone, Fault zone strength and failure criteria, Geophys Res Lett, 22 (1995) 723-726. [13] N. Kato, T.E. Tullis, A composite rate- and state-dependent law for rock friction, Geophys Res Lett, 28 (2001) 1103-1106. [14] K. Nagata, Experimental study of friction behaviors using acoustic in-situ monitoring of frictional interface, Dr. Sc. Thesis, the University of Tokyo, 2008. [15] N. Kame, S. Fujita, M. Nakatani, T. Kusakabe, Earthquake cycle simulation with a revised rate- and state-dependent friction law, Tectonophysics, (2012) doi: 10.1016/j.tecto.2012.11.029. [16] N. Kame, S. Fujita, M. Nakatani, T. Kusakabe, Effects of a revised rate- and state-dependent friction law on aftershock triggering model, Tectonophysics, (2012) doi: 10.1016/j.tecto.2012.11.028. [17] P. Bhattacharya, A.M. Rubin, Numerical and analytical study of rupture nucleation on 1D and 2D faults under a new state evolution law, AGU 2012 Fall Meeting abstract, S21B-2466, San Francisco.

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