阿海水电站厂房坝段地震破坏试验研究
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摘要
采用和混凝土力学性能相似的仿真混凝土材料,结合振动台试验技术,对模型进行合理设计。采用逐级加载方法,研究阿海碾压混凝土重力坝厂房坝段在地震荷载作用下的动力破坏发展过程及地震破坏形态。试验结果表明:引水管和坝体相交的坝头部位是厂房坝段的抗震薄弱部位;大坝开裂后坝体的整体刚度迅速下降,可以结合坝体基频、残余应变的变化以及对坝体表面宏观裂缝的观察,综合分析大坝的损伤破坏过程。试验结果为工程设计人员进行大坝抗震设计提供了参考。
Taking simulated concrete and in the combination of experimental technology of shaking table,the model of Ahai power house dam monolith is reasonably designed.By step-loading,the seismic failure process and mode of the dam monolith are studied under seismic load action.The results show that the intersectant point of the dam body and the intake pipe is the weak point for anti-seismic;the general stiffness decreases rapidly after dam cracking.The damage and failure process of the dam monolith can be comprehensively analyzed by the s basic frequency of the dam body,the variation of residual strains and the macro cracks on dam surface.Test results can provide references for dam anti-seismic deign.
Taking simulated concrete and in the combination of experimental technology of shaking table,the model of Ahai power house dam monolith is reasonably designed.By step-loading,the seismic failure process and mode of the dam monolith are studied under seismic load action.The results show that the intersectant point of the dam body and the intake pipe is the weak point for anti-seismic;the general stiffness decreases rapidly after dam cracking.The damage and failure process of the dam monolith can be comprehensively analyzed by the s basic frequency of the dam body,the variation of residual strains and the macro cracks on dam surface.Test results can provide references for dam anti-seismic deign.
引文
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[2]朱彤,林皋,马恒春,等.龙滩大坝的动力模型破坏试验研究[J].水电站设计,1995,11(2):48-54.
[3]Zhou J,Lin G,Jerrerson A D,et al.Experimental investigation intoseismic failure of high arch dams[J].Journal of Structural Engineer-ing,ASCE,2000,126(8):926-935.
[4]李德玉,王海波,涂劲,等.拱坝坝体-地基动力相互作用的振动台动力模型试验研究[J].水利学报,2003,(7):30-35.
[5]王海波,李德玉,陈厚群.拱坝振动台动力破坏试验研究[J].土木工程学报,2006,39(7):109-118.
[6]Haibo Wang,Deyu Li.Experimental study of dynamic damage of anarch dam[J].Earthquake Engineering and Structural Dynamics,2007,36(3):347-366.
[7]林皋,朱彤,林蓓.结构动力模型试验的相似技巧[J].大连理工大学学报,2000,40(l):1-8.
[8]范书立,陈健云.碾压混凝土重力坝动力模型破坏试验研究[J].水力发电,2009,35(5):33-35.
[9]朱彤,林皋,马恒春.混凝土仿真材料特性及其应用的试验研究[J].水力发电学报,2004,23(4):31-37.
[10]范书立,陈健云,周晶,等.龙开口水电站溢流坝段动力模型破坏试验研究[J].水利学报,2007,(增):195-199.
[11]任亮,李宏男,胡志强,等.一种增敏型光纤光栅应变传感器的开发及应用[J].光电子.激光,2008,19(11):1437-1441.
[2]朱彤,林皋,马恒春,等.龙滩大坝的动力模型破坏试验研究[J].水电站设计,1995,11(2):48-54.
[3]Zhou J,Lin G,Jerrerson A D,et al.Experimental investigation intoseismic failure of high arch dams[J].Journal of Structural Engineer-ing,ASCE,2000,126(8):926-935.
[4]李德玉,王海波,涂劲,等.拱坝坝体-地基动力相互作用的振动台动力模型试验研究[J].水利学报,2003,(7):30-35.
[5]王海波,李德玉,陈厚群.拱坝振动台动力破坏试验研究[J].土木工程学报,2006,39(7):109-118.
[6]Haibo Wang,Deyu Li.Experimental study of dynamic damage of anarch dam[J].Earthquake Engineering and Structural Dynamics,2007,36(3):347-366.
[7]林皋,朱彤,林蓓.结构动力模型试验的相似技巧[J].大连理工大学学报,2000,40(l):1-8.
[8]范书立,陈健云.碾压混凝土重力坝动力模型破坏试验研究[J].水力发电,2009,35(5):33-35.
[9]朱彤,林皋,马恒春.混凝土仿真材料特性及其应用的试验研究[J].水力发电学报,2004,23(4):31-37.
[10]范书立,陈健云,周晶,等.龙开口水电站溢流坝段动力模型破坏试验研究[J].水利学报,2007,(增):195-199.
[11]任亮,李宏男,胡志强,等.一种增敏型光纤光栅应变传感器的开发及应用[J].光电子.激光,2008,19(11):1437-1441.
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