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The fluid-structure interaction under seismic excitation is very complicated, and thus the damage identification of the bridge in deep water is the key technique to ensure the safe service. Based on nonlinear Morison equation considering the added mass effect and the fluid-structure interaction effect, the effect of hydrodynamic pressure on the structure is analyzed. A series of underwater shaking table tests are conducted in the air and in water. The dynamic characteristics affected by hydrodynamic pressure are discussed and the distribution of hydrodynamic pressure is also analyzed. In addition, the damage of structure is distinguished through the natural frequency and the difference of modal curvature, and is then compared with the test results. The numerical simulation and test of this study indicate that the effect of hydrodynamic pressure on the structure should not be neglected. It is also found that the presence of the damage, the location of the damage and the degree of the severity can be judged through the variation of structure frequency and the difference of modal curvature. 相似文献
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桥梁水下桩墩结构振动台模型试验相似律验证 总被引:1,自引:0,他引:1
模拟地震振动台模型试验是研究桥梁桩墩结构抗震设计的重要方法。振动台试验结果的有效性取决于模型结构与原型结构的相似程度,不同的试验目的对应的相似关系也有差别。桥梁水下桩墩结构动力模型试验在满足结构自身相似律的同时,也要满足结构周围动水压力的相似,水体的存在限制了试验模型的相似设计。基于目前广泛应用的Buckinghamπ定理,采用量纲分析法和方程分析法,通过对比分析,在合理假设的基础上得出了桥梁混凝土桩墩结构振动台破坏试验模型设计的实用相似关系。最后,以某实际水下桥梁桩墩结构为例,通过计算分析验证了相似关系公式并对产生的误差进行了判断。结果表明:原型结构与模型结构的地震动力响应满足预计的相似关系;推导的相似律能在一定程度上避免模型设计的困难,较适用于实际应用。 相似文献
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为了了解动水效应对桩墩结构体系的影响以及完善桥梁结构的抗震设计方法,进行了水下桩墩结构模型体系的动力试验.从模型设计、试验装置和加载工况3个方面介绍了试验的实施过程.通过观察模型破坏形态和分析试验结果,探讨了动水压力对结构体系动力特性和地震响应的影响并且检验了应用该动力模型试验研究的适用性.试验结果表明:模型在水中的自振频率比无水时有所降低;动水压力的大小与输入的加速度峰值有关并且在相同的峰值加速度下沿模型从上到下依次递增;试验结果满足预期目的,证实了试验方案的有效性. 相似文献
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