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张楚汉, Zhang Chuhan, a, O. A. Pekaub, Jin Fengc, & Wang Guanglunc
Soil Dynamics and Earthquake Engineering 16(1997)385-394,-0001,():
-1年11月30日
Comprehensive studies on the dynamic behaviours of a high rock slope of the Three Gorges shiplock and a blocky arch structure are performed using the distinct element method (DEM). Some additional functions have been incorporated into the current DEM code, including a scheme of non-uniform seismic input on the boundaries and an improved triangular mesh generator for deformable elements. Parameters from the field and laboratory tests of the project are used in the analysis of the shiplock slope. Comparisons between the DEM results and the field measurements under the excavation unloading process are made and the good agreement obtained demonstrates the effectiveness of the DEM for predicting the deformation process of the slope. The above examples of the high rock slope and the blocky arch demonstrate that the effects of different earthquake input, input mechanism andparameters on the dynamic response behaviours and collapse pattern of the systems are significant.
rock slope,, earthquake,, dynamic analysis,, DEM,, joint strength,, collapse pattern.,
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【期刊论文】Earthquake behavior of arch dams
张楚汉, Chuhan Zhang, Yanjie Xu, Guanglun Wang, & Feng Jin
,-0001,():
-1年11月30日
The earthquake behavior of arch dams is studied including dam-canyon interaction and nonlinear response of dams due to contraction joint opening and joint reinforcements. Significant effects of canyon radiation damping, non-uniform free-field excitations and nonlinear joint behavior on dam response have been confirmed.
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【期刊论文】Creep Modeling in Excavation Analysis of a High Rock Slope
张楚汉, Jin Feng; Zhang Chuhan, M.ASCE; Wang Gang; and Wang Guanglun
JOURNAL OF GEOTECHNICAL AND GEOENVIRONMENTAL ENGINEERING ,-0001,():
-1年11月30日
Based on the distinct element method, a numerical procedure is presented for simulation of creep behavior of jointed rock slopes due to excavation unloading. The Kelvin model is used to simulate viscous deformation of joints. A numerical scheme is introduced to create incremental contact forces, which are equivalent to producing creep deformation of a rock-joint system. The corresponding displacement of discrete blocks due to creep deformation of contact joints can be calculated by equilibrium iteration. Comparisons of results between the numerical model and theoretical solutions of a benchmark example show that the presented model has excellent accuracy for analysis of creep deformation of rock-joint structures. As an application of the model, residual deformations of the high rock slopes of the Three Gorges shiplock due to excavation unloading and creep behavior are investigated. By simulating the actual excavation process, the deformation history of a shiplock slope is studied. Good agreement has been achieved between numerical prediction and field measurements. It demonstrates the effectiveness of the presented model in analysis of the creep deformation due to excavation unloading of high rock slopes.
Creep, Models, Slopes, Excavation, Discrete elements.,
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张楚汉, Zhang Chuhan*, s, Xu Yanjie, Wang Guanglun, and Jin Feng
Earthquake Engng Struct. Dyn. 2000; 29:1547-1566,-0001,():
-1年11月30日
A comprehensive study of non-linear seismic response of arch dams with contraction joint opening and joint reinforcements has been conducted. A numerical model of contraction joint reinforcements is presented for optimization control of the joint opening. The objective of this control is to reduce the joint opening and expectantly to balance the sustained loads between the horizontal and the vertical components of the dam, thus avoiding an overstress in the cantilever while retaining the release of arch tensile stresses to some extent. Several parameter studies such as critical element size and required number of joints to be simulated for convergence are also performed. As an engineering application, a 292-m high arch dam (the Xiaowan arch dam) and the Big Tujunga dam are analysed in detail. The results demonstrate that the joint opening and the corresponding load transfer from the arch to cantilever components of the dam during strong earthquakes are substantial. It is also evident that by providing su$cient strength and reinforcement #exibility, the joint opening can be controlled to some extent. However, the stress redistribution due to reinforcement control is not su$cient to avoid the overstress in the cantilever for the Xiaowan arch dam. Thus, alternative measures are discussed. Copyright
arch dam, non-linear response, contraction joint, joint opening control
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【期刊论文】Time-Domain Boundary Element Method for Underground Structures in Orthotropic Media
张楚汉, Zhang Chuhan, M.ASCE; Ren Yuntao, O. A. Pekau, M.ASCE, and Jin Feng
JOURNAL OF ENGINEERING MECHANICS ,-0001,():
-1年11月30日
Based on the fundamental solutions due to Dirac's d function for transversely isotropic media, a numerical scheme for wave propagation in two-dimensional orthotropic media is developed within the boundary element method in the time domain. Criteria for selection of the time and space discretizations for convergent and accurate results are established. The applicability and accuracy of the scheme are verified by a number of benchmark problems including dynamic responses of an orthotropic half plane under uniform harmonic surface loadings and a circular cavern in slightly orthotropic media under the incidence of pseudo-P and-SV waves. The procedure is then applied to examine wave propagation for an underground tunnel with different ratios of orthotropy in the media. The effects of different wave parameters and ratios of orthotropy on dynamic response of the tunnel are presented.
Anisotropic materials, Underground structures, Tunnels, Wave propagation, Orthotropism, Time factors.,
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