The response of tall buildings to far-field earthquakes and the case of a 49-storey steel building

International Journal of Earthquake and Impact Engineering Pub Date : 2020-02-19 DOI:10.1504/ijeie.2020.10027031

S. Muin, A. Astaneh-Asl, C. Topkaya

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引用次数: 1

Abstract

This paper investigates the seismic response of an instrumented 49-storey steel structure in San Francisco to weak, far-field, and strong, near-field ground motions. The instrumentation records obtained during the 1989 Loma Prieta earthquake are used to verify the accuracy of the predictions of the time-history analysis of the model. The ChiChi-002 ground motion record from the 1992 Chi-Chi earthquake in Taiwan (PGA = 0.08 g), representing a 'weak, far-field' earthquake and the record from the 1994 Northridge-Newhall earthquake (PGA = 0.60 g) representing a 'strong, near-field' earthquake were used in the study. The results showed that the force, acceleration, and displacement responses of this long-period structure to the 'weak far-field' ground motion are much larger than its response to the 'strong, near-field' ground motion. Also, the response attenuates at a slower rate for the weak, far-field earthquake, indicating the possibility of greater damage, both to structural and non-structural elements, during the earthquake. Interim seismic design recommendations are formulated to address this issue in the design of tall buildings with long periods.

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高层建筑对远场地震的响应及以49层钢结构建筑为例

本文研究了旧金山一座仪器49层钢结构对弱、远场和强、近场地面运动的地震反应。利用1989年洛马普列塔地震期间的仪器记录来验证模型时程分析预测的准确性。研究中使用了1992年台湾Chi-Chi地震的chi -002地面运动记录(PGA = 0.08 g)，代表“弱、远场”地震，1994年Northridge-Newhall地震的记录(PGA = 0.60 g)代表“强、近场”地震。结果表明，这种长周期结构对“弱远场”地面运动的力、加速度和位移响应远远大于对“强、近场”地面运动的响应。此外，对于弱远场地震，响应衰减速度较慢，这表明地震期间对结构和非结构元件的破坏可能更大。为了解决长周期高层建筑设计中的这一问题，制定了临时抗震设计建议。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Journal of Earthquake and Impact Engineering

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