A new attenuation model of near-fault ground motions with consideration of the hanging wall effect in the Wenchuan earthquake |
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Authors: | Lei Peng Lili Xie Jinjun Hu Dong Wang |
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Institution: | [1]Institute of Engineering Mechanics, China Earthquake Administration, Harbin 150080, China [2]School of Civil Engineering and Architecture, Harbin Institute of Technology, Harbin 150090, China |
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Abstract: | The hanging wall effect is an important factor that impacts the characteristics of strong ground motions in near-fault areas.
Based on a residual analysis of ground motion parameters characterizing the hanging wall effect and in recognition of the
nature of the effect, many models have been developed. In this study, after a comprehensive analysis of two existing models,
a new model is proposed and used to model the hanging wall effect in horizontal peak ground acceleration (PGAH) and spectral
acceleration (SAH) at a period of 0.1 s in the Wenchuan earthquake. Finally, comparisons between the modeling results of the
hanging wall effect in the Wenchuan earthquake and the results predicted by using Abrahamson and Silva’s NGA model (AS NGA)
indicate that the AS NGA model predicts a much higher hanging wall effect than the model developed in this paper. Furthermore,
the AS NGA model predicts a large hanging wall effect even at great distances, while the proposed model more accurately captures
the trend of the effect. |
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Keywords: | hanging wall effect Wenchuan earthquake attenuation relationship NGA model |
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