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抗拉强度空间变异性对重力坝地震开裂的影响分析
引用本文:李泽发,吴震宇,卢祥,裴亮,杨哲. 抗拉强度空间变异性对重力坝地震开裂的影响分析[J]. 四川大学学报(工程科学版), 2019, 51(4): 116-124
作者姓名:李泽发  吴震宇  卢祥  裴亮  杨哲
作者单位:四川大学 水力学与山区河流开发保护国家重点实验室 水利水电学院, 四川 成都 610065,四川大学 水力学与山区河流开发保护国家重点实验室 水利水电学院, 四川 成都 610065,四川大学 水力学与山区河流开发保护国家重点实验室 水利水电学院, 四川 成都 610065,四川大学 水力学与山区河流开发保护国家重点实验室 水利水电学院, 四川 成都 610065,四川大学 水力学与山区河流开发保护国家重点实验室 水利水电学院, 四川 成都 610065
基金项目:国家重点研发计划项目(2016YFC0401907)
摘    要:由于施工质量不均匀和混凝土自身的非均质性,重力坝坝体混凝土强度具有空间变异性,这一特性会对大坝的抗震性能造成影响,而当前的重力坝地震动力分析中很少考虑混凝土强度参数的空间变异性。应用随机场理论构建大坝抗拉强度的空间变异随机场,采用中心点法离散随机场并构建自相关函数得到相关系数矩阵,对相关系数矩阵进行Cholesky分解和线性变换,结合独立标准正态分布样本矩阵生成相关对数正态分布样本矩阵,实现抗拉强度空间变异性的抽样模拟。考虑混凝土抗拉强度的空间变异性,采用混凝土塑性损伤模型对Koyna重力坝进行地震非线性动力分析,基于统计意义研究了坝体裂缝条数、裂缝深度、上游面裂缝分布范围和坝顶位移等动力响应特征。成果分析表明:考虑抗拉强度的空间变异性后,Koyna重力坝动力响应具有明显的离散性,且上游面裂缝条数增加后导致坝顶水平位移整体偏向下游,垂直位移整体上抬,残余位移增大;同时裂缝深度均值较均质材料情况增大,坝体震损程度总体加剧;Koyna重力坝实际观察到的裂缝位于计算得到的裂缝分布范围之内。对抗拉强度变异系数和水平向自相关距离的参数敏感性分析表明,坝体动力响应的均值和变异性随变异系数的增大而增大,但对抗拉强度的水平自相关距离变化不敏感。

关 键 词:重力坝  空间变异性  地震开裂  动力分析
收稿时间:2018-08-29
修稿时间:2019-05-20

Influence of Spatial Variability of Tensile Strength on Seismic Cracking of Gravity Dam
LI Zef,WU Zhenyu,LU Xiang,PEI Liang and YANG Zhe. Influence of Spatial Variability of Tensile Strength on Seismic Cracking of Gravity Dam[J]. Journal of Sichuan University (Engineering Science Edition), 2019, 51(4): 116-124
Authors:LI Zef  WU Zhenyu  LU Xiang  PEI Liang  YANG Zhe
Affiliation:State Key Lab. of Hydraulics and Mountain River Eng., College of Water Resources & Hydropower, Sichuan Univ., Chengdu 610065, China,State Key Lab. of Hydraulics and Mountain River Eng., College of Water Resources & Hydropower, Sichuan Univ., Chengdu 610065, China,State Key Lab. of Hydraulics and Mountain River Eng., College of Water Resources & Hydropower, Sichuan Univ., Chengdu 610065, China,State Key Lab. of Hydraulics and Mountain River Eng., College of Water Resources & Hydropower, Sichuan Univ., Chengdu 610065, China and State Key Lab. of Hydraulics and Mountain River Eng., College of Water Resources & Hydropower, Sichuan Univ., Chengdu 610065, China
Abstract:Since the uneven construction quality and the inherent heterogeneity of concrete, the material properties of the gravity dam have spatial variability. The spatial variability of the concrete strength parameters will affect the seismic performance of dams, while it is rarely considered in the current seismic dynamic analysis of gravity dams. The random field theory was employed to generate the spatial variation random field of concrete tensile strength. The Midpoint method was used to discretize the random field and then Cholesky decomposition and linear transformation were performed on the generated correlation coefficient matrix. A series of independent standard normal distribution sample matrices were utilized to generate corresponding correlation lognormal distribution sample matrices to simulate the spatial variability of tensile strength. Considering the spatial variability of concrete tensile strength, the seismic nonlinear dynamic analysis of Koyna gravity dam was carried out by using Concrete Damaged Plasticity model. Based on the statistical significance, the dynamic response characteristics of the dam, such as the number of cracks, the depth of cracks, the distribution range of cracks on the upstream surface and the displacement of the dam crest were studied. The results showed that, after considering the spatial variability of tensile strength, the dynamic response of the Koyna gravity dam has obvious dispersion, and the additional cracks on the upstream causes the horizontal displacement of the dam crest to be downstream, the vertical displacement to be uplifted, and the residual displacement to be increased. Meanwhile, the mean depth of crack is larger than that of homogeneous assumption, and the extent of dam damage is generally aggravated. The actual observed cracks in the Koyna gravity dam are within the calculated crack distribution. The parameter sensitivity analysis showed that the mean value and variability of the dynamic response of the dam increases with the increase of the coefficient of variation of tensile strength, while they are not sensitive to the horizontal autocorrelation distance of tensile strength.
Keywords:gravity dam  spatial variability  seismic cracking  dynamic analysis
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