个人信息Personal Information
教授
博士生导师
硕士生导师
性别:男
毕业院校:大连理工大学
学位:博士
所在单位:力学与航空航天学院
学科:工程力学. 计算力学. 结构工程. 动力学与控制
办公地点:力学楼506 (Mechanics Building 506)
联系方式:yangdx@dlut.edu.cn
电子邮箱:yangdx@dlut.edu.cn
Seismic failure analysis for a high concrete face rockfill dam subjected to near-fault pulse-like ground motions
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论文类型:期刊论文
发表时间:2017-07-01
发表刊物:SOIL DYNAMICS AND EARTHQUAKE ENGINEERING
收录刊物:SCIE、EI、Scopus
卷号:98
页面范围:235-243
ISSN号:0267-7261
关键字:Near-fault; Pulse-like ground motion; Concrete face rock fill dam; Dynamic elastoplasticity
摘要:In the strong seismic zone of Western China, many high concrete face rockfill dams (CFRDs) have been built or designed, and some of these high dams are located in the near-fault region. A near-fault earthquake has relatively long velocity and displacement pulse periods, and a dynamic directivity effect could result in dam failure. However, there are few seismic analysis of high CFRDs considering pulse-like effect. Therefore, it is necessary to investigate the dynamic response of high CFRDs in the near-fault area. In this study, 16 ground motions are selected including 8 pulse-like motions with rupture forward directivity effects and 8 non-pulse motions. The rockfill materials are described using a generalized plasticity model, while a plastic damage model that considers stiffness degradation and strain softening is used to simulate the face slabs. Furthermore, the interfaces between the face slabs and cushions are modeled using interface elements that follow a generalized plasticity model to describe the relative sliding between slab and rockfill.
The numerical analysis results indicate that although the near-fault pulse-like ground motion has a moderate impact on the dam acceleration, it has a remarkable impact on the residual deformation of dam and concrete slab damage, especially for the dam crest. The seismic response of the dam increases with an increasing ratio of the peak ground velocity to the peak ground acceleration (PGV/PGA). In addition, even with the similar Arias intensity, the residual deformation of the dam under pulse-like records is larger than those under non-pulse ones. The pulse-like ground motion often generates a high input energy which will cause large deformation of concrete face slab in a short period of time. Therefore, when a CFRD is constructed in the vicinity of an earthquake, the effects of the pulse-like ground motion should be investigated to comprehensively evaluate the seismic safety of the dam.