通过振动台测试框架支撑剪力墙上轨建筑的抗震性能

Ying Zhou, Qidong Chen, Hao Wu, Hongchang Wen, Xingzhong Nong, Yongsheng Wu, Peng Xiao
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摘要

摘要 本研究涉及中国广州赤沙车辆段城市过轨建筑的框支剪力墙,该建筑的特点是高度高达 160.8 米。由于竖向结构刚度不连续、裙房大、结构过渡等原因,这类建筑通常会遇到技术问题。这些挑战对工程过程产生了重大影响,尤其是当楼层之间的刚度差异超过三倍,以及建筑高度超过规范限制时。本文基于 1:10 的结构模型开发了振动台试验。利用相似理论,建立了模型设计的动态相似关系。随后,通过对质量设计、传感器位置和地震试验条件等关键参数的配置,构建了试验模型。随后进行了深入分析,记录了组件故障,并研究了动态特性等关键方面,即不同地震烈度下的加速度和位移响应以及剪力分布。根据试验结果得出了原型结构的理论地震响应。振动台试验证实,该结构符合中国标准规定的严格抗震设计要求,在轻微地震下无损坏,在中等地震下可修复,在罕见地震下可防止倒塌。研究结果为类似城市超限建筑的设计和开发提供了宝贵的启示和改进措施,可能有助于提高中国城市土地的利用效率。
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Seismic performance of a frame‐supported shear wall over‐track building through shaking table test
SummaryThis research deals with a frame‐supported shear wall for urban over‐track building of vehicle depot in Chisha, Guangzhou, China, which is characterized by its remarkable height of 160.8 m. Technical issues are commonly encountered in these kinds of buildings due to discontinuous vertical structural rigidity, large podium, and structural transition. These challenges significantly impact the engineering process, especially when the rigidity difference between transfer story exceeding the threefold, as well as the building height exceeds limit as in code. In this paper, a shaking table test was developed based on a 1:10 scaled model of the structure. Using similarity theory, the dynamic similarity relationship was established for the design of the model. Subsequently, the experimental model was constructed with the configuration of critical parameters such as mass design, sensor placement, and seismic test conditions. This was followed by in‐depth analysis, recording component failures and investigating key aspects such as dynamic characteristics, that is, acceleration and displacement responses and shear force distribution under different earthquake intensities. A theoretical seismic response of the prototype structure was derived from the test results. The shaking table tests confirmed that the structure met the stringent seismic design requirements as prescribed in the Chinese standards, with no damage under minor earthquakes, repairability under moderate earthquakes, and collapse prevention under rare earthquakes. The results of the study provide valuable insights along with improvement measures for the design and development of similar urban over‐track buildings, potentially contributing to more efficient land use in urban China.
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