|
|
|
| Analysis of Uncertainty of Slope Rock-soil Engineering and Countermeasure |
| HE Gang, JIANG Chu-sheng |
| China Railway Eryuan Engineering Group Co. Ltd, Chengdu, Sichuan 610031, China |
|
|
|
|
Abstract Research purposes:The design of slope rock-soil engineering has to be made on the basis of the analysis with the different parameters and models for the rock and soil because of the complicated geological condition and limitation of the geological survey, but the choice of model for rock and soil and mechanics analysis are rather complicated. Especially for the area with complicated geological condition, the calculation and analysis are more difficult, resulting in many uncertain factors. What presented in this paper are the countermeasures for reducing the influence of uncertainty of slope rock-soil engineering.
Research conclusions:The dynamic design and dynamic construction method have bright applicable future in the slope rock-soil engineering. Whether the design of rock-soil engineering is reasonable or not relates to the adaptability of the engineering measures to the geological conditions. In course of the construction, the information collection system should be established, and the designed mechanics model for rock and soil and relative parameters must be modified and improved according to the geological conditions revealed by excavation and other engineering. In this way, the actual dynamic design and construction can be realized to make the design and construction more adaptable to the features of the slope rock-soil engineering with more safety and higher efficiency. So the dynamic design and construction are the effective way for reducing the uncertainty of the slope rock-soil engineering.
|
|
Received: 17 June 2009
|
|
|
|
|
|
[ 1 ] 吕学清. 高边坡岩土工程动态施工[J]. 非金属矿, 1995(3): 21-23.
Lv Xueqing. Dynamic Construction of High Slope Geotechnical Engineering[J]. Non-metallic Minerals, 1995(3): 21-23.
[ 2 ] 肖世国. 岩石高边坡的动态设计施工模式 [ J ]. 岩石力学与工程学报 , 2003(2): 89-96.
Xiao Shiguo. Dynamic Design and Construction Mode of High Slope[J]. Chinese Journal Rock Mechanics, 2003(2): 89-96.
[ 3 ] 李敏. 路堑高边坡施工工艺及工序研究报告[J]. 科学技术通讯, 2001(8): 12-16.
Li Min. The Study of High Slope Process Construction and Construction Sequence[J]. The Communications of Science and Technology, 2001(8): 12-16.
[ 4 ] 秦小林. 动态监测在京珠高速公路粤境北段K98路堑高边坡工点的应用[J]. 路基工程, 2005(2): 16-23.
Qin Xiaolin. Dynamic Monitoring Apply of K98 High Slope Engineering of Beijing-Zhuhai Expressway[J]. Subgrade Engineering, 2005(2): 16-23.
[ 5 ] 徐平, 周火明. 高边坡岩体开挖卸荷效应流变数值分析[ J ]. 岩石力学与工程学报, 2000 (4) : 481-485 .
Xu Ping, Zhou Huoming. Rheological Analysis on Rock Mass of High Slope Considering Effects of Excavation Unloading[J]. Chinese Journal Rock Mechanics, 2000(4): 481-485.
[ 6 ] 周世猛. 信息施工法在路堑高边坡设计施工中的应用[ J ]. 路基工程 , 2005 (3) : 23-27.
Zhou Shimeng. Information Construction Method Apply to Dynamic Design and Construction of High Slope[J]. Subgrade Engineering, 2005(3): 23-27.
[ 7 ] 赵文. 基于范例推理结构型岩体边坡稳定性评价[J]. 铁道工程学报, 2008 (7): 5-9.
Zhao Wen. Based Reasoning Approach to Stability Evaluatiom of Structured Rock Slope[J]. Journal of Railway Engineering Society, 2008(7): 5-9.
[ 8 ] 吴海斌. 三峡永久船闸岩石高边坡工程稳定技术[J]. 岩石力学与工程学报, 2002 (2): 261-267.
Wu Haibin. High Rock Slope of Permanent Ship Lock of Sanxia Project Stabilization[J]. Chinese Journal Rock Mechanics, 2002(2): 261-267.
[ 9 ] 周德培. 软岩高边坡工程的信息施工[J]. 岩石力学与工程学报, 1999 (4) : 69-74.
Zhou Depei. Construction Information of Soft Rock High Slope[J]. Chinese Journal Rock Mechanics, 1999(4): 69-74.
[ 10 ] 仇圣华. 岩体不确定性参数求解方法研究[J]. 地下空间, 2001 (3): 32-36.
Qiu Shenghua. Uncertain Parameters of Rock Mass Solving Method[J]. Subsurface Openings, 2001(3): 32-36.
|
|
|
|
2010, Vol. 27 
