Analysis of Slope Stability with Dynamic Overloading from Earthquake

The analysis of slope earthquake stability is one of the most important research subjects in geotechnical engineering and earthquake engineering.Two different concepts of slope earthquake stability are put forward:strength reserve stability and dynamic overloading stability.The first concept of slop...

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Published inJournal of earth science (Wuhan, China) Vol. 23; no. 3; pp. 285 - 296
Main Author 赵体 孙进忠 张彬 李程
Format Journal Article
LanguageEnglish
Published China University of Geosciences China University of Geosciences 01.06.2012
Springer Nature B.V
Subjects
Biogeosciences
Criteria
Dynamic tests
Dynamics
Earth and Environmental Science
Earth science
Earth Sciences
Earthquake engineering
Earthquakes
Failure
Geochemistry
Geology
Geotechnical Engineering & Applied Earth Sciences
Ground motion
Load
Overloading
Seismic activity
Seismic phenomena
Seismology
Slope stability
Stability
地震动态
地震地面运动
地震稳定性
定性分析方法
岩土工程
峰值加速度
超载
边坡稳定性分析
China
earthquake stability
load increasing method
slope
dynamic overloading
critical earthquake peak acceleration
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Summary:The analysis of slope earthquake stability is one of the most important research subjects in geotechnical engineering and earthquake engineering.Two different concepts of slope earthquake stability are put forward:strength reserve stability and dynamic overloading stability.The first concept of slope earthquake stability has been widely accepted,and relative analysis methods are also well de-veloped;the second one,however,is seldom mentioned until now,and the failure criterion and the analysis method based on this concept are yet to be explored.What are researched are just the failure criterion and the analysis method of dynamic overloading earthquake stability.The criterion of critical earthquake peak acceleration for the dynamic overloading stability of a slope and its analysis method,the load increasing method(LIM),are put forward.The dynamic overloading earthquake stability of a loess slope at Changshougou(长寿沟) in Baoji(宝鸡) City,Shaanxi(陕西) Province,China,is analyzed with LIM.The analysis result reveals that the dynamic overloading earthquake stability of the slope is quite high to the action of the earthquake ground motion,with exceeding probability of 10% in the next 50 years.
Bibliography:Ti Zhao, Jinzhong Sun, Bin Zhang, Cheng Li(School of Engineering & Technology, China University of Geosciences, Beijing 100083, China)
slope, dynamic overloading, earthquake stability, load increasing method, criticalearthquake peak acceleration.
The analysis of slope earthquake stability is one of the most important research subjects in geotechnical engineering and earthquake engineering.Two different concepts of slope earthquake stability are put forward:strength reserve stability and dynamic overloading stability.The first concept of slope earthquake stability has been widely accepted,and relative analysis methods are also well de-veloped;the second one,however,is seldom mentioned until now,and the failure criterion and the analysis method based on this concept are yet to be explored.What are researched are just the failure criterion and the analysis method of dynamic overloading earthquake stability.The criterion of critical earthquake peak acceleration for the dynamic overloading stability of a slope and its analysis method,the load increasing method(LIM),are put forward.The dynamic overloading earthquake stability of a loess slope at Changshougou(长寿沟) in Baoji(宝鸡) City,Shaanxi(陕西) Province,China,is analyzed with LIM.The analysis result reveals that the dynamic overloading earthquake stability of the slope is quite high to the action of the earthquake ground motion,with exceeding probability of 10% in the next 50 years.
42-1788/P
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ISSN:1674-487X
1867-111X
DOI:10.1007/s12583-012-0257-2