基于坡表变形分析与降雨响应模拟的立节北山滑坡运动特征  被引量：3

作　　者：丛凯 魏洁 杨亚兵 陈龙 张彤炜 李生 付舟 张彤文 张帆宇[2,3] Cong Kai;Wei Jie;Yang Yabing;Chen Long;Zhang Tongwei;Li Sheng;Fu Zhou;Zhang Tongwen;Zhang Fanyu(Institute of Gansu Geo-environment Monitoring,Lanzhou 730050,China;Key Laboratory of Mechanics on Disaster and Environment in Western China MOE;College of Civil Engineering and Mechanics,Lanzhou University,Lanzhou 730000,China)

机构地区：[1]甘肃省地质环境监测院,兰州730050 [2]兰州大学西部灾害与环境力学教育部重点实验室,兰州730000 [3]兰州大学土木工程与力学学院,兰州730000

出　　处：《地质科技通报》2022年第6期54-65,共12页Bulletin of Geological Science and Technology

基　　金：国家自然科学基金项目(42090053,42041006,41790443);甘肃省自然科学基金项目(20JR5RA259);中国博士后科学基金面上项目(2019M653791);中央高校基本科研业务费专项资金项目(lzujbky-2021-ct04);甘肃地质环境监测院校企合作项目。

摘　　要：速度倒数法(INV)是基于坡表变形特征的滑坡启滑预测工具,其与滑坡内部多物理场演化的关系仍需进一步明晰。开展了甘肃省舟曲县立节北山滑坡的勘察与坡表变形监测,采用基于速度倒数法、速度阈值法、以非饱和土理论为基础的边坡降雨响应模拟3种方法,对该滑坡的运动特征与失稳的内在机制展开了研究。研究结果表明:边坡变形速度倒数-时间曲线有明显的加速起始点。速度倒数在2021年6月3日达到最低值后,进入约60 d的平稳期,在9月20日突然加速,并在20 d内速度达到200 mm/d以上,变形不再收敛。基于速度倒数法得到的滑坡生命周期结束点,与实际的失稳点相差8 d,提前约130 d对该突发性滑坡进行了预报。根据全过程速度时程曲线,存在20,60,100 mm/d的多级速度阈值。边坡应力场、变形场、渗流场的数值模拟结果显示,变形时程曲线的拐点与降雨强度的增加相关,累计降雨量与安全系数呈指数负相关。数值模拟得到的累计变形为2250 mm,变形速度为10~35 mm/d,速度倒数为0.03~0.12 d/mm,与实际监测数据接近。综上所述,速度倒数法对立节北山滑坡的生命周期进行了有效预测,基于速度的预警阈值受长时序变形时程曲线波动的影响,采用以非饱和土理论为基础的数值模拟明晰了立节北山滑坡变形对降雨的响应机制。Slope kinematics is normally used to evaluate the temporal and spatial evolution of landslides.The inverse velocity method(INV)is an important tool for predicting the initiation of landslide,but its correlation with the physical and mechanical mechanisms of multiple physical fields inside the landslide need to be further clarified.In this paper,the slope deformation and geological characteristics of the Lijie Beishan landslide in Zhouqu,Gansu Province was investigated.The inverse velocity method,velocity threshold method and numerical simulation based on unsaturated soil theory were used to study the kinematic characteristic of slope.The results showed that after the lowest value of the inverse velocity on June 3,2021,a stable stage lasted for approximately 60 days and then suddenly accelerated on September 20.The velocity became more than 200 mm/d over 20 days,and the deformation did not converged.There was an obvious acceleration point in the time-dependent inverse velocity curve.The end of the landslide life cycle was obtained by extending the straight line after the onset of the acceleration point.The prediction period was within 8 days compared to the actual instability startup,and the landslide was predicted 130 days in advance.According to the post analysis of the whole time-dependent velocity curve,the multi-level speed thresholds of v_(1)=20 mm/d,v_(2)=60 mm/d,and v_(3)=100 mm/d were set up.Because there were two peaks of velocity,the prediction of landslide triggering was lagging compared to the inverse velocity method.The coupling of slope stresses,deformation and pore water transportation was simulated.The results showed that the inflection point of the time-dependent deformation curve was correlated with the increase in precipitation intensity,and the cumulative precipitation was negatively exponentially correlated with the safety factor.The cumulative deformation obtained by numerical simulation was 2250 mm,the velocity of deformation was 10-35 mm/d,and the inverse velocity was 0.03-0.12 d/mm,which

关 键 词：立节北山滑坡 变形监测 速度倒数法 多级速度阈值 降雨响应模拟 

分 类 号：TU457[建筑科学—岩土工程]