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Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Duration Effects of Near-Fault Ground Motions on Structural Seismic Responses
This study reveals the duration effects of near-fault ground motions with distinct long-period pulse and without pulse on structural seismic responses and damage. To this end, several velocity-based duration measures (DMs) are proposed according to the characteristic of abundant low-frequency content in near-fault records, and non-structural compound intensity measures (IMs) incorporating DMs are suggested. Moreover, the correlations between the IMs and DMs of near-fault ground motions, as well as those between the IMs and DMs of ground motions and the seismic responses (i.e. maximum displacement D max, input energy E I and hysteretic energy E H) of bilinear single-degree-of-freedom (SDOF) systems, are scrutinized. It is shown that the acceleration-based absolute uniform durations present strong correlation with the acceleration-related IMs, while the velocity-based absolute uniform durations highly correlate with the velocity- and displacement-related IMs. In the short-period region, the acceleration-based absolute uniform duration U 0.10 g is well correlated with the seismic responses, while in the medium-, medium-long- and long-period regions, the velocity-based absolute uniform duration U v10 exhibits strong correlation. Additionally, the compound IMs combining with uniform durations (PGA•U 0.10 g and PGV•U v10) are the competent indices to quantify duration effects of near-fault records. The similar observations for duration effects are validated by four representative frame buildings considering Bouc-Wen hysteretic behavior without or with degradation of strength and stiffness.
Duration Effects of Near-Fault Ground Motions on Structural Seismic Responses
This study reveals the duration effects of near-fault ground motions with distinct long-period pulse and without pulse on structural seismic responses and damage. To this end, several velocity-based duration measures (DMs) are proposed according to the characteristic of abundant low-frequency content in near-fault records, and non-structural compound intensity measures (IMs) incorporating DMs are suggested. Moreover, the correlations between the IMs and DMs of near-fault ground motions, as well as those between the IMs and DMs of ground motions and the seismic responses (i.e. maximum displacement D max, input energy E I and hysteretic energy E H) of bilinear single-degree-of-freedom (SDOF) systems, are scrutinized. It is shown that the acceleration-based absolute uniform durations present strong correlation with the acceleration-related IMs, while the velocity-based absolute uniform durations highly correlate with the velocity- and displacement-related IMs. In the short-period region, the acceleration-based absolute uniform duration U 0.10 g is well correlated with the seismic responses, while in the medium-, medium-long- and long-period regions, the velocity-based absolute uniform duration U v10 exhibits strong correlation. Additionally, the compound IMs combining with uniform durations (PGA•U 0.10 g and PGV•U v10) are the competent indices to quantify duration effects of near-fault records. The similar observations for duration effects are validated by four representative frame buildings considering Bouc-Wen hysteretic behavior without or with degradation of strength and stiffness.
Duration Effects of Near-Fault Ground Motions on Structural Seismic Responses
Chen, Guohai (Autor:in) / Guo, Guiqiang (Autor:in) / Liu, Yi (Autor:in) / Yang, Dixiong (Autor:in)
Journal of Earthquake Engineering ; 27 ; 3202-3227
18.08.2023
26 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Unbekannt
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