We propose a new source-time function, to be used in kinematic modeling of ground-motion time histories, which is consistent with dynamic propagation of earthquake ruptures and makes feasible the dynamic interpretation of kinematic slip models. This function is derived from a source-time function first proposed by Yoffe (1951), which yields a traction evolution showing a slip-weakening behavior. In order to remove its singularity, we apply a convolution with a triangular function and obtain a regularized source-time function called the regularized Yoffe function. We propose a parameterization of this slip-velocity time function through the final slip, its duration, and the duration of the positive slip acceleration (Tacc). Using this analytical function, we examined the relation between kinematic parameters, such as peak slip velocity and slip duration, and dynamic parameters, such as slip-weakening distance and breakdown-stress drop. The obtained scaling relations are consistent with those proposed by Ohnaka and Yamashita (1989) from laboratory experiments. This shows that the proposed source-time function suitably represents dynamic rupture propagation with finite slip-weakening distances.

A kinematic source-time function compatible with earthquake dynamics / Tinti, E; Fukuyama, E; Piatanesi, A; Cocco, M. - In: BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA. - ISSN 0037-1106. - 95:4(2005), pp. 1211-1223. [10.1785/0120040177]

A kinematic source-time function compatible with earthquake dynamics

Tinti E;
2005

Abstract

We propose a new source-time function, to be used in kinematic modeling of ground-motion time histories, which is consistent with dynamic propagation of earthquake ruptures and makes feasible the dynamic interpretation of kinematic slip models. This function is derived from a source-time function first proposed by Yoffe (1951), which yields a traction evolution showing a slip-weakening behavior. In order to remove its singularity, we apply a convolution with a triangular function and obtain a regularized source-time function called the regularized Yoffe function. We propose a parameterization of this slip-velocity time function through the final slip, its duration, and the duration of the positive slip acceleration (Tacc). Using this analytical function, we examined the relation between kinematic parameters, such as peak slip velocity and slip duration, and dynamic parameters, such as slip-weakening distance and breakdown-stress drop. The obtained scaling relations are consistent with those proposed by Ohnaka and Yamashita (1989) from laboratory experiments. This shows that the proposed source-time function suitably represents dynamic rupture propagation with finite slip-weakening distances.
2005
01 Pubblicazione su rivista::01a Articolo in rivista
A kinematic source-time function compatible with earthquake dynamics / Tinti, E; Fukuyama, E; Piatanesi, A; Cocco, M. - In: BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA. - ISSN 0037-1106. - 95:4(2005), pp. 1211-1223. [10.1785/0120040177]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1367166
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