地动特性对底座隔震结构中铅橡胶支座发热效应的影响

Bin Xue, Wensheng Lu, Yongqiang Yang, Xiangxiang Ren
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引用次数: 0

摘要

在地震激励下,铅橡胶支座(LRB)内部的铅芯会产生热量,导致铅橡胶支座的机械性能下降。然而,在使用铅橡胶支座的基底隔震结构的抗震分析和设计中,通常并未考虑发热效应,这可能会低估结构的地震响应,尤其是在具有某些特定特征的地面运动下。本文旨在揭示地动特征对加热效应的影响,为抗震分析和设计提供有用的参考。在本研究中,考虑了加热效应的验证 LRB 模型被应用于一栋经测试数据校准的基底隔离建筑。地动特征包括振幅、持续时间和频率含量,通过频谱等效记录和不同记录进行了分离。结果表明,铅芯温度上升的速率和峰值与地面运动特征密切相关。忽略加热效应的地震响应被低估了,而且这种低估随振幅、持续时间和频率含量的变化而变化,在所研究的案例中高达 60%。需要注意的是,与上部结构相比,隔震系统的地震反应受加热效应的影响更大,而且持续时间对低地震动板刚度退化的影响比频率含量更大。强烈建议提高对地面运动持续时间的要求,并对采用轻型隔震板的隔震结构的低层上部结构进行加固。在分析加热效应时,重要持续时间指标 DS5-95 比 DS5-75 更为合理。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of ground motion characteristics on the heating effect of lead‐rubber bearings in base‐isolated structures
Under earthquake excitations, the lead core inside the lead‐rubber bearing (LRB) generates heat, causing the mechanical degradation of LRBs. However, the heating effect is not commonly considered in the seismic analysis and design of base‐isolated structures with LRBs, which may underestimate the seismic response of structures, especially under ground motions with certain specific characteristics. This paper aims to reveal the influence of ground motion characteristics on the heating effect and provide useful references for the seismic analysis and design. In this study, the validated LRB model considering heating effect was employed in a base‐isolated building calibrated by testing data. Ground motion characteristics including amplitude, duration, and frequency content were separated by spectrally equivalent and different records. The results indicate that the rate and peak of the lead core temperature rise are strongly correlated to ground motion characteristics. Seismic responses ignoring the heating effect are underestimated, and this underestimate varies as the amplitude, duration, and frequency content change and reaches up to 60% in the studied case. Note that seismic responses of the isolation system are more affected by heating effects than the superstructure, and the duration shows a more significant influence on the stiffness degradation of LRBs than the frequency content. It is strongly recommended that the required duration of ground motions should be raised and the low stories of the superstructure should be reinforced for isolated structures with LRBs. The significant duration indicator DS5–95 is more reasonable than DS5–75 in the analysis of the heating effect.
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