Deformation and failure mechanism and analysis on prevention measures of colluction landslide under earthquake and heavy rainfall

HU Aiguo; ZHOU Wei

doi:10.16031/j.cnki.issn.1003-8035.2022.01-04

2022 Vol. 33, No. 1

Article Contents

Article navigation > The Chinese Journal of Geological Hazard and Control > 2022 > 33(1): 27-34

Next Article Previous Article

HU Aiguo, ZHOU Wei. Deformation and failure mechanism and analysis on prevention measures of colluction landslide under earthquake and heavy rainfall[J]. The Chinese Journal of Geological Hazard and Control, 2022, 33(1): 27-34. doi: 10.16031/j.cnki.issn.1003-8035.2022.01-04

Citation:

HU Aiguo, ZHOU Wei. Deformation and failure mechanism and analysis on prevention measures of colluction landslide under earthquake and heavy rainfall[J]. The Chinese Journal of Geological Hazard and Control, 2022, 33(1): 27-34. doi: 10.16031/j.cnki.issn.1003-8035.2022.01-04

Deformation and failure mechanism and analysis on prevention measures of colluction landslide under earthquake and heavy rainfall

HU Aiguo,
ZHOU Wei

282 Brigade of Sichuan Province Nuclear Industry Geology Bureau, Deyang, Sichuan　638000, China

Received Date: 06 December 2021

Revised Date: 21 January 2022

Publish Date: 25 February 2022

Abstract

Abstract

Accumulation landslides located in the Southwest Mountainous are affected by both earthquake and heavy rainfall, the deformation and failure characteristics of landslides are affected by these two main factors. Finding out the deformation and failure mechanism of this kind of landslide is the basis of geological disaster prevention and risk prevention and control. This paper takes Maju landslide in Luhuo County as the research object. The results show that, the seismic action has obvious damage effect on the structure of accumulation landslide located in slope zone, it not only reduces the overall stability of the landslide, but also promotes the development of a large number of fissures in the slope, which is conducive to the infiltration of rainfall into the slope, and then worsens the hydrogeological conditions of the landslide. Heavy rainfall is easy to form large-scale flood and debris flow, cutting the gully at the foot of the slope, and pulling the landslide to slide downward as a whole. The long-term heavy rainfall infiltration slope also has a great impact on the stability of the landslide, and the landslide is in an unstable state for a long time after rainfall. Therefore, for this kind of landslide prevention scheme, the strategy of paying equal attention to slope toe protection and anti slide retaining should be adopted, the effectiveness analysis of the protection scheme shows that the safety of the protection scheme has a certain guarantee under extreme conditions, achieves the purpose of prevention and control, and further controls the risk.
- accumulation landslide /
- rainfall infiltration /
- earthquake action /
- cutting the gully at the foot of the slope /
- prevention scheme

FullText(HTML)

References

[1]	黄润秋. 汶川地震地质灾害后效应分析[J]. 工程地质学报,2011,19(2):145 − 151. [HUANG Runqiu. After effect of geohazards induced by the Wenchuan earthquake[J]. Journal of Engineering Geology,2011,19(2):145 − 151. (in Chinese with English abstract) doi: 10.3969/j.issn.1004-9665.2011.02.001 CrossRef Google Scholar
[2]	于宝国, 边波, 李春龙, 等. 基于知识图谱的碎石土堆积体滑坡研究热点及发展趋势[J]. 地球科学前沿(汉斯),2021(10):1326 − 1340. [YU Baoguo, BIAN Bo, LI Chunlong, et al. Research hotspot and development trend of gravel soil accumulation landslide based on knowledge graph[J]. Advances in Geosciences,2021(10):1326 − 1340. (in Chinese with English abstract) Google Scholar
[3]	孙凯, 孟国杰, 洪顺英, 等. 联合InSAR和GPS研究鲜水河断裂带炉霍—道孚段震间运动特征[J]. 地球物理学报,2021,64(7):2278 − 2296. [SUN Kai, MENG Guojie, HONG Shunying, et al. Interseismic movement along the Luhuo-Daofu section of the Xianshuihe Fault from InSAR and GPS observations[J]. Chinese Journal of Geophysics,2021,64(7):2278 − 2296. (in Chinese with English abstract) Google Scholar
[4]	中国地震台网中心国家地震科学数据中心. http://data.earthquake.cn Google Scholar China Seismological Network Center National Seismological Science Data Center.http://data.earthquake.cn.(in Chinese) Google Scholar
[5]	赵金, 吴红刚, 杨涛. 滑坡对不同特性地震波的动力响应规律[J]. 中国地质灾害与防治学报,2018,29(6):47 − 52. [ZHAO Jin, WU Honggang, YANG Tao. Dynamic response of landslides to different seismic wave[J]. The Chinese Journal of Geological Hazard and Control,2018,29(6):47 − 52. (in Chinese with English abstract) Google Scholar
[6]	丁秀美, 刘光士, 黄润秋, 等. 剪应变增量在堆积体边坡稳定性研究中的应用[J]. 地球科学进展,2009,19(增刊 1):318 − 323. [DING Xiumei, LIU Guangshi, HUANG Runqiu, et al. Shear strain increment applying instability studying of debris slope[J]. Advance in Earth Sciences,2009,19(Sup 1):318 − 323. (in Chinese with English abstract) Google Scholar
[7]	李秀珍, 何思明. 基于Mein-Larson入渗模型的浅层降雨滑坡稳定性研究[J]. 灾害学,2015,30(2):16 − 20. [LI Xiuzhen, HE Siming. A study on stability of shallow rainfall-induced landslide based on mein-larson infiltration model[J]. Journal of Catastrophology,2015,30(2):16 − 20. (in Chinese with English abstract) Google Scholar
[8]	杨宗佶, 蔡焕, 雷小芹, 等. 非饱和地震滑坡堆积体降雨破坏水-力耦合行为试验[J]. 岩土力学,2019,40(5):1869 − 1880. [YANG Zongji, CAI Huan, LEI Xiaoqin, et al. Experiment on hydro-mechanical behavior of unsaturated gravelly soil slope[J]. Rock and Soil Mechanics,2019,40(5):1869 − 1880. (in Chinese with English abstract) Google Scholar
[9]	邹祖银, 朱占元, 张锋, 等. 连续降雨条件下某震后高边坡稳定性分析[J]. 地震工程学报,2016,38(4):541 − 548. [ZOU Zuyin, ZHU Zhanyuan, ZHANG Feng, et al. Stability analysis of post-earthquake high slope under continuous rainfall[J]. China Earthquake Engineering Journal,2016,38(4):541 − 548. (in Chinese with English abstract) Google Scholar
[10]	贺小黑, 彭鑫, 谭建民, 等. 地下水渗流对崩坡积滑坡稳定性和变形的影响: 以湖南安化春风滑坡群为例[J]. 中国地质灾害与防治学报,2020,31(6):96 − 103. [HE Xiaohei, PENG Xin, TAN Jianmin, et al. Influence of groundwater seepage on stability and deformation of colluvial deposit landslide: Taking Chunfeng Landslide group in Anhua County of Hunan Province as an example[J]. The Chinese Journal of Geological Hazard and Control,2020,31(6):96 − 103. (in Chinese with English abstract) Google Scholar
[11]	韩培锋, 樊晓一, 田述军, 等. 降雨强度与含石量对松散堆积体失稳影响研究[J]. 工程科学与技术,2019,51(1):112 − 120. [HAN Peifeng, FAN Xiaoyi, TIAN Shujun, et al. Effect of rainfall intensity and stone content on the instability of quaternary deposits[J]. Advanced Engineering Sciences,2019,51(1):112 − 120. (in Chinese with English abstract) Google Scholar
[12]	王家柱, 葛华, 高延超, 等. 川南红层区黄子树滑坡形成过程与运动特征[J]. 中国地质灾害与防治学报,2020,31(2):9 − 17. [WANG Jiazhu, GE Hua, GAO Yanchao, et al. Mechanism and kinematic characteristics of Huangzishu Landslide in the red mudstone of southern Sichuan[J]. The Chinese Journal of Geological Hazard and Control,2020,31(2):9 − 17. (in Chinese with English abstract) Google Scholar
[13]	吴火珍, 冯美果, 焦玉勇, 等. 降雨条件下堆积层滑坡体滑动机制分析[J]. 岩土力学,2010,31(增刊 1):324 − 329. [WU Huozhen, FENG Meiguo, JIAO Yuyong, et al. Analysis of sliding mechanism of accumulation horizon landslide under rainfall condition[J]. Rock and Soil Mechanics,2010,31(Sup 1):324 − 329. (in Chinese with English abstract) Google Scholar
[14]	刘明扬, 武哲, 付晓东, 等. 不同降雨条件下堆积体边坡响应规律与失稳力学机制分析[J]. 科技和产业,2021,21(7):266 − 274. [LIU Mingyang, WU Zhe, FU Xiaodong, et al. Analysis of response law and instability mechanism of accumulation slope under different rainfall conditions[J]. Science Technology and Industry,2021,21(7):266 − 274. (in Chinese with English abstract) Google Scholar
[15]	廖军, 邓涛, 周越良, 等. 降雨作用下第四系堆积体路堤稳定性[J]. 科学技术与工程,2021,21(23):10090 − 10097. [LIAO Jun, DENG Tao, ZHOU Yueliang, et al. Stability of quaternary accumulation embankment under rainfall[J]. Science Technology and Engineering,2021,21(23):10090 − 10097. (in Chinese with English abstract) Google Scholar
[16]	张雨林, 石惊涛, 涂国祥, 等. 粗、巨颗粒富集位置对堆积体降雨入渗的影响[J]. 水利水运工程学报,2021,5:76 − 83. [ZHANG Yulin, SHI Jingtao, TU Guoxiang, et al. Influence of coarse and giant particles enrichment position on rainfall infiltration of accumulation body[J]. Hydro-Science and Engineering,2021,5:76 − 83. (in Chinese with English abstract) Google Scholar
[17]	张国帅, 王晓亮, 夏建新. 入渗条件下颗粒堆积体稳定性试验研究[J]. 泥沙研究,2021,46(5):68 − 73. [ZHANG Guo-shuai, WANG Xiaoliang, XIA Jianxin. Experimental study on stability of particle accumulation under infiltration[J]. Journal of Sediment Research,2021,46(5):68 − 73. (in Chinese with English abstract) Google Scholar
[18]	张玉, 徐卫亚, 邹丽芳, 等. 降雨条件下大型滑坡体渗流稳定性分析[J]. 岩土力学,2013,34(3):833 − 841. [ZHANG Yu, XU Weiya, ZOU Lifang, et al. Analysis of seepage stability of large-scale landslide under rainfall condition[J]. Rock and Soil Mechanics,2013,34(3):833 − 841. (in Chinese with English abstract) Google Scholar
[19]	左自波, 张璐璐, 王建华. 降雨触发不同级配堆积体滑坡模型试验研究[J]. 岩土工程学报,2015,37(7):1319 − 1327. [ZUO Zibo, ZHANG Lulu, WANG Jianhua. Model tests on rainfall-induced colluvium landslides: effects of particle-size distribution[J]. Chinese Journal of Geotechnical Engineering,2015,37(7):1319 − 1327. (in Chinese with English abstract) Google Scholar
[20]	卫童瑶, 殷跃平, 高杨, 等. 三峡库区巫山县塔坪H1滑坡变形机制[J]. 水文地质工程地质,2020,47(4):73 − 81. [WEI Tongyao, YIN Yueping, GAO Yang, et al. Deformation mechanism of the Taping H1 landslide in Wushan County in the Three Gorges Reservoir area[J]. Hydrogeology & Engineering Geology,2020,47(4):73 − 81. (in Chinese with English abstract) Google Scholar
[21]	穆鹏, 吴玮江, 折学森. 汶川地震重灾区陇南红土坡滑坡稳定性分析与防治对策研究[J]. 工程地质学报,2012,20(2):204 − 212. [MU Peng, WU Weijiang, SHE Xuesen. Stability assessment and treatment for hongtupo landslide in severe disaster area of southern Gansu induced by Wenchuan earthquake[J]. Journal of Engineering Geology,2012,20(2):204 − 212. (in Chinese with English abstract) Google Scholar
[22]	张玉, 徐卫亚, 石崇, 等. 争岗滑坡堆积体稳定性及治理措施研究[J]. 岩土工程学报,2010,32(9):1470 − 1478. [ZHANG Yu, XU Weiya, SHI Chong, et al. Stability and treatment of Zhenggang landslide accumulation mass[J]. Chinese Journal of Geotechnical Engineering,2010,32(9):1470 − 1478. (in Chinese with English abstract) Google Scholar