Source model of the 1995 Hyogo-Ken Nanbu earthquake and simulation of near-source ground motion

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Source model of the 1995 Hyogo-Ken Nanbu earthquake and simulation of near-source ground motion

Katsuhiro Kamae and Kojiro Irikura

Research Reactor Institute Kyoto University, Noda, Kumatori-cho, Sennan-gun, Osaka, 590-04, Japan+81-724-51-2369+81-724-51-2603kamae{at}kuca.rri.kyoto-u.ac.jp
D.P.R.I. Kyoto University Gokasho, Uji, Kyoto, 611, Japan+81-774-33-5866irikura{at}egmdpri01.dpri.kyoto-u.ac.jp

Abstract

The 1995 Hyogo-Ken Nanbu earthquake struck the heavily populatedKobe and adjacent cities in western Japan. More than 6400 peoplewere killed, and more than 150,000 buildings were destroyed.The characteristics of mainshock ground motions in the heavilydamaged area are needed to understand how buildings and bridgesperformed and why they reached failure. Unfortunately, veryfew strong ground motions were recorded in the heavily damagedarea during the mainshock. In this study, we attempt to estimatemainshock ground motions by using the empirical Green's functionmethod (EGF method). First, we assume an initial source modelwith the asperities based on the rupture process obtained byinversion of strong-ground-motion records. For simplicity, weconsider each asperity as a subevent with uniform stress dropin a finite extent. Then, the initial model was improved bymatching the synthetic and observed ground motions using a trial-and-errorprocedure. The final model consists of three subevents: subevent1 with stress drop of 163 bars, under the Akashi Strait aroundthe rupture starting point; subevent 2 with stress drop of 86bars, under the Nojima Fault in Awaji Island; and subevent 3with stress drop of 86 bars, under Kobe. Finally, we estimatestrong ground motions using aftershock records at sites wherethe mainshock was not recorded. The near-source motions in Kobesynthesized with the best-fit model are characterized by twolarge pulses with a duration of 1 to 3 sec. The pulses are causedby forward rupture directivity effects from subevents 1 and3. Peak horizontal acceleration and velocity of the synthesizedmotions at the heavily damaged sites are about 1000 cm/sec²and 130 cm/sec, respectively, while those at a rock site inthe near-source region are about 300 cm/sec² and 60 cm/sec.

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