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Volume 27 Issue 6
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HOU Yanli, ZHANG Chong, ZHANG Chuhan, JIN Feng. Simulation of upward-sliding failure of interface in arch dams by deformable distinct elements[J]. Chinese Journal of Geotechnical Engineering, 2005, 27(6): 657-661.
Citation: HOU Yanli, ZHANG Chong, ZHANG Chuhan, JIN Feng. Simulation of upward-sliding failure of interface in arch dams by deformable distinct elements[J]. Chinese Journal of Geotechnical Engineering, 2005, 27(6): 657-661.
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Simulation of upward-sliding failure of interface in arch dams by deformable distinct elements

  • Department of Hydraulic Engineering Tsinghua University Beijing 100084 China

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  • Published Date: June 15, 2005
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  • 3D deformable distinct element method (3D DEM) is an efficient numerical tool for simulation of mechanical behaviors of discontinuous media. It is suitable to use this method to analyze problems of elasto-plastic, large deformation and dynamic systems because of the use of the explicit finite-difference scheme and the automatic contact detection method for discretized joints. Herein, the principles and features of the 3D deformable distinct element method were described and the failure process of Meihua Arch Dam in 1981 was simulated. It is evident that abutment thrust due to the reservoir load leads to the upward sliding of the dam along the peripheral joints due to the weak shear resistance of peripheral joints, thus causing the rapid collapse of the dam.
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