Abstract
In order to shed light on the mechanism and characteristics of the reactivation of unfavorably oriented faults due to natural or man-made stress changes, we investigated the stick-slip behavior of precut faults having different angles to the greatest principal stress in granite rock samples using an acoustic emission (AE) technique under well-controlled laboratory conditions. The results show that the friction coefficient of a precut fault depends only on its stick-slip history, being independent of fault angle. In all cases, the fault friction drops from ~0.75 to 0.6 after a few stick-slip iterations. Many AE events preceding each stick-slip event were observed. We mapped both on-fault and off-fault microcracks in detail with their AE hypocenters. A tendency toward decreased AE activity was observed. Experimental results suggest that there are two competing mechanisms governing the evolution of the frictional properties and the damage zone characteristics of such faults. On the one hand, the fault plane is smoothed by fault slippage as a result of asperities failing on the fault plane and a fault gauge is created. On the other hand, the fault plane is roughened by new damage. As a result, both AE activity and fault friction tend to decrease, but with significant fluctuations.
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This work is partially supported by National Science Foundation of China (NSFC 41174046).
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Lei, X., Li, S., Liu, L. (2017). Fracturing Behaviors of Unfavorably Oriented Faults Investigated Using an Acoustic Emission Monitor. In: Shen, G., Wu, Z., Zhang, J. (eds) Advances in Acoustic Emission Technology. Springer Proceedings in Physics, vol 179. Springer, Cham. https://doi.org/10.1007/978-3-319-29052-2_20
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DOI: https://doi.org/10.1007/978-3-319-29052-2_20
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