摘要
应用子结构理论,对设置伸缩横缝的小湾高拱坝结构,分别就正常高水位常遇低水位两种水位工况,考虑坝体伸缩横缝在地震交变荷载作用下反复开合引起的缝面间滑移、接触等效应的影响,坝体-库水的相互作用而产生的动水压力的影响,对坝体的抗震性能进行了地震反应分析。对伸缩缝间设置阻尼器这一新的设计思想进行了可行性的研究,论证推导了阻尼器的计算模型,探讨了阻尼器对坝体结构抗震性能的影响。
The study on earthquake-resistance of high arch dams has always been important research. The paper analyzed the seismic resistance of XIAOWAN arch dam in which the effect of contraction joints to high arch dam were considered. Some nonlinear finite element procedures for high arch dam with consideration of the gradual opening and closing of contraction joints have been developed. Among them the substructure procedure with three-dimensional nonlinear joint element is a more efficient and effective analysis tool for performing additional studies on high arch dam response. In this paper, the property and feasibility of a new design idea about setting damper in the joints of arch dam as an antiseismic measure of high arch dam in practice is discussed from engineering point of view. A numerical model which simulates the dampers is set and demonstrated. The effects of different water height, contact and sliding of joints and the dam-water interaction to earthquake response of high arch dam are discussed. The effect of the dampers on the seismic-resistance of arch dam is calculated and explored.
出处
《计算力学学报》
EI
CAS
CSCD
北大核心
2005年第4期447-452,共6页
Chinese Journal of Computational Mechanics
基金
国家自然科学基金(50109005)资助项目.
关键词
阻尼器
地震响应
高拱坝
伸缩横缝
damper
seismic response
high arch dam
contraction joint
