主余震序列作用下钢筋混凝土框架结构的易损性分析及安全评估

FRAGILITY ANALYSIS AND SAFETY EVALUATION OF REINFORCED CONCRETE FRAME STRUCTURES SUBJECTED TO MAINSHOCK-AFTERSHOCK EARTHQUAKE SEQUENCES

  • 摘要: 余震将给主震损伤结构造成“二次损伤”,威胁结构的地震安全。鉴于此,该文基于传统地震易损性理论,分别采用真实主余震序列和人工构造主余震序列作为地震输入,选择一栋按我国规范设计的5层钢筋混凝土框架结构作为研究对象,对主余震序列作用下的结构易损性进行研究。基于结构在主余震序列作用下的易损性结果,分别计算结构在不同危险性水平的主余震序列作用下的极限状态失效概率、破坏状态失效概率和易损性指数,评估结构在主余震序列作用下的地震安全。分析结果表明:主余震序列作用下的结构易损性要高于主震单独作用下的结构易损性。人工构造主余震序列要比真实主余震序列对结构造成更大的易损性。在真实和人工主余震序列中,基于重复法构造的人工主余震序列对结构的潜在破坏能力最强,而基于衰减法构造的人工主余震序列与真实主余震序列对结构的潜在破坏能力较为接近。

     

    Abstract: Aftershocks can cause additional damage to mainshock-damaged structures and threaten structural safety under earthquakes. In the light of this, this study extends the conventional seismic fragility theory and conducts the fragility analysis for a five-story RC frame structure designed according to the current Chinese design codes using the earthquake inputs of real and artificial mainshock-aftershock earthquake sequences. Based on the obtained fragility results for earthquake sequences, the limit state failure probabilities, damage state failure probabilities, and the vulnerability index corresponding to the earthquake sequences of different hazard levels are calculated for evaluating the structural safety under sequential earthquakes. The results show that the structural fragility due to mainshock-aftershock earthquake sequences is higher than that due to mainshock earthquakes alone. The artificial earthquake sequences may cause larger structural fragility than the real earthquake sequences. The artificial earthquake sequences based on the repeated method shows the largest damage potential for the structure among the used real and artificial earthquake sequences. The artificial earthquake sequences based on the attenuation method has a similar damage potential to real earthquake sequences.

     

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