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基于尖点突变理论的岩溶山体稳定性分析OA

Stability analysis of karst landslides based on cusp catastrophe theory

中文摘要英文摘要

为研究岩溶地区山体稳定性变化规律,考虑岩溶山体后缘管道、滑面管道劣化以及水对结构面的弱化作用,以岩溶山体平面滑动为例建立了岩溶管道未贯通与岩溶管道贯通2种地质模型及相应的力学模型.基于尖点突变理论,推导出岩溶管道流作用下岩溶山体稳定性系数(FOS)与岩溶山体临界稳定性系数(FOS*),提出岩溶地区山体突变失稳的能量准则.结果表明,平衡点与临界失稳点的位移大小关系可表征山体是否失稳;岩溶管道未贯通时FOS、FOS*的计算公式中比贯通时多1项关于刚度系数k的因子,即岩溶管道对山体稳定性有一定影响;岩溶山体稳定性系数与刚度系数k,管道劣化系数m有关,是影响山体稳定性的重要因素;通过鸡尾山滑坡实例研究证明,基于尖点突变理论的能量准则能更好地验证滑面结构复杂的岩溶山体稳定性,可对极限平衡法所得结果进行补充验证.

To investigate the stability evolution of mountainous slopes in karst regions,this study considers the deterioration of pipelines along the rear edge and sliding surface,as well as the weakening effects of water on structural planes.Taking planar sliding in karst mountains as the research object,two geological models and corresponding mechanical models are established,including unconnected and connected karst conduits.Based on cusp catastrophe theory,the stability coefficient(FOS)and critical stability coefficient(FOS*)of karst slopes under pipeline flow conditions are derived,and an energy-based criterion for abrupt instability is proposed.Results show that the displacement relationship between equilibrium and critical instability points can effectively determine the onset of slope failure.When conduits are unconnected,the presence of an additional stiffness coefficient k in the formulations of FOS and FOS* reveals that karst conduits influence slope stability.The stability coefficient is closely related to both k and pipeline deterioration coefficient m,showing their controlling roles in stability evolution.A case study of the Jiwei Mountain landslide verifies that the proposed energy criterion based on cusp catastrophe theory more accurately evaluates the stability of karst slopes with complex sliding surfaces,complementing the results of traditional limit equilibrium analysis.

赵瑞欣;蒲峻驰;李滨;易连兴;张东;张秀钰

长安大学 公路学院,西安 710064长安大学 公路学院,西安 710064中国地质科学院 地质力学研究所,北京 100101中国地质科学院岩溶地质研究所,桂林 541000清华大学 土木水利学院,北京 100084长安大学 公路学院,西安 710064

建筑与水利

岩土工程山体稳定性尖点突变理论岩溶管道水锤作用力能量准则

geotechnical engineeringmountain stabilitycusp catastrophe theorykarst conduitwater hammer forceenergy criterion

《重庆大学学报》 2026 (1)

94-105,12

国家重点研发计划资助项目(2018YFC1504801)国家自然科学基金资助项目(41907236).Supported by the National Key Research and Development Program of China(2018YFC1504801),and National Natural Science Foundation of China(41907236).

10.11835/j.issn.1000-582X.2026.01.009

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