Title of article
Estimation of the Critical Slip-Weakening Distance: Theoretical Background
Author/Authors
Mikumo، Takeshi نويسنده , , Olsen، Kim B. نويسنده , , Fukuyama، Eiichi نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2003
Pages
-1834
From page
1835
To page
0
Abstract
It has been shown that a trade-off exists between estimates of the breakdown strength drop and the critical slip-weakening distance (e.g., Guatteri and Spudich, 2000). For this reason, only the fracture energy, proportional to these two parameters, may be estimated from waveform modeling. However, Mikumo et al. (2003) proposed a new technique to estimate the slip-weakening distance of earthquakes, separate from the fracture energy. For this method to be valid, the peak slipvelocity time must be close to the stress breakdown time. Here we explain the theoretical background of this assumption and clarify the limitations of this technique using numerical simulations based on the boundary integral equation method. The theoretical analysis using the boundary integral equation and some numerical tests indicates that a rather smooth rupture process and relatively sharp change in stress at the stress breakdown time in the slip-weakening curve ensure the validity of the method.
Keywords
DNA-based computing , The NP-complete problem , Molecular computing , Biological computing
Journal title
Bulletin of the Seismological Society of America
Serial Year
2003
Journal title
Bulletin of the Seismological Society of America
Record number
63896
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