| [1] |
黄润秋,李渝生,严 明. 斜坡倾倒变形的工程地质分析[J]. 工程地质学报,2017,25(5):1 165–1 181.(HUANG Runqiu,LI Yusheng,YAN Ming. The implication and evaluation of toppling failure in engineering geology practice[J]. Journal of Engineering Geology,2017,25(5):1 165–1 181.(in Chinese))
|
| [2] |
王 飞,唐辉明,章广成,等. 雅砻江上游深层倾倒体发育特征及形成演化机制[J]. 山地学报,2018,36(3):411–421.(WANG Fei,TANG Huiming,ZHANG Guangcheng,et al. Development characteristics and evolution mechanism of the deep-seated toppling in the upstream of the Yalong River,China[J]. Mountain Research,2018,36(3):411–421.(in Chinese))
|
| [3] |
黄振伟,马力刚,雷 明. 西藏扎拉水电站倾倒边坡工程地质特性研究[J]. 工程科学与技术,2020,52(5):79–88.(HUANG Zhenwei,MA Ligang,LEI Ming,et al. Study on the engineering geological characteristics of the toppling slope of Zara Hydropower Station in Tibet[J]. Advanced Engineering Sciences,2020,52(5):79–88.(in Chinese))
|
| [4] |
宁奕冰,唐辉明,张勃成,等. 澜沧江深层倾倒体演化过程及失稳机制研究[J]. 岩石力学与工程学报,2021,40(11):2 199–2 213. (NING Yibing,TANG Huiming,ZHANG Bocheng,et al. Evolution process and failure mechanism of a deep-seated toppling slope in the Lancang River Basin[J]. Chinese Journal of Rock Mechanics and Engineering,2021,40(11):2 199–2 213.(in Chinese))
|
| [5] |
裴小龙,杨瀚文,宋东阳,等. 雅砻江中游楞古水电站夏日滑坡发育特征及稳定性分析[J]. 中国地质灾害与防治学报,2022,33(1):75–82.(PEI Xiaolong,YANG Hanwen,SONG Dongyang,et al. Characteristics and stability analysis of Xiari landslide at Lenggu hydropower station in the middle reach of the Yalong River[J]. The Chinese Journal of Geological Hazard and Control,2022,33(1):75–82.(in Chinese))
|
| [6] |
安晓凡,李 宁,孙闻博. 岩质边坡倾倒变形机理及稳定性研究综述[J]. 中国地质灾害与防治学报,2018,29(3):1–11.(AN Xiaofan,LI Ning,SUN Wenbo. Review on the mechanism and stability of toppling deformation of rock slopes[J]. The Chinese Journal of Geological Hazard and Control,2018,29(3):1–11.(in Chinese))
|
| [7] |
张世殊,裴向军,母剑桥,等. 溪洛渡水库星光三组倾倒变形体在水库蓄水作用下发展演化机制分析[J]. 岩石力学与工程学报,2015,34(增2):4 091–4 098.(ZHANG Shishu,PEI Xiangjun,MU Jianqiao,et al. Evolution mechanisms analysis of Xinguangsanzu toppling deformation bodies under condition of impound water of Xiluodu hydropower station[J]. Chinese Journal of Rock Mechanics and Engineering,2015,34(Supp.2):4 091–4 098.(in Chinese))
|
| [8] |
王有林,赵志祥,许晓霞,等. 西藏某水电站坝前左岸倾倒变形体稳定性评价[C]// 第十三届全国边坡工程技术大会论文集. [S. l.]:[s. n.],2021:10–16.(WANG Youlin,ZHAO Zhixiang,XU Xiaoxia,et al. The stability evaluation of the toppling deformation body on the left bank in front of the dam at a hydropower station in Tibet[C]// Proceedings of the 13th National Conference on Slope Engineering Technology. [S. l.]:[s. n.],2021:10–16.(in Chinese))
|
| [9] |
程振东,迟福东,宁 宇,等. 黄登坝前倾倒变形体变形特征及影响因素分析[J]. 水电能源科学,2021,39(5):161–164.(CHENG Zhendong,CHI Fudong,NING Yu,et al. Analysis on development characteristics and influencing factors of toppling deformed slope before dam of Huangdeng hydropower station project[J]. Water Resources and Power,2021,39(5):161–164.(in Chinese))
|
| [10] |
张学东,贾 桢,陈书文,等. 白龙江水泊峡倾倒变形体涌浪预测研究[J]. 水利水电工程设计,2022,41(3):44–46.(ZHANG Xuedong,JIA zhen,CHEN Shuwen,et al. Research on the prediction of surging waves in the collapsed deformation body of the Bailong River Shuibo Gorge[J]. Design of Water Resources and Hydroelectric Engineering,2022,41(3):44–46.(in Chinese))
|
| [11] |
杨沛璋,崔圣华,裴向军,等. 基于SBAS-InSAR和光学遥感影像的大型倾倒变形体变形演化研究[J]. 地质科技通报,2023,42(6):63–75.(YANG Peizhang,CUI Shenghua,PEI Xiangjun,et al. Deformation and evolution of large dumping bodies based on SBAS-InSAR and optical remote sensing images[J]. Bulletin of Geological Science and Technology,2023,42(6):63–75.(in Chinese))
|
| [12] |
赵永辉,涂国祥,董 劲,等. 基于FLAC3D的澜沧江古水水电站争岗滑坡堆积体稳定性分析[J]. 路基工程,2016,(1):182–185. (ZHAO Yonghui,TU Guoxiang,DONG Jin,et al. Stability analysis of Zhenggang landslide deposit talus at Gushui hydropower Station on Lancang River based on FLAC3D[J]. Subgrade Engineering,2016,(1):182–185.(in Chinese))
|
| [13] |
GOODMAN R E,BRAR J W. Toppling of rock slopes[C]// Proceeding of the ASCE Specialty Conference,Rock Engineering for Foundations and Slopes. Colorado:Boulder,1976:201–234.
|
| [14] |
ADHIKARY D P,DYSKIN A V,JEWELL R J,A study of the mechanism of flexural toppling failure of rock slopes[J]. Rock Mechanics and Rock Engineering,1997,30(2):75–93.
|
| [15] |
徐佩华,陈剑平,黄润秋,等. 锦屏Ⅰ级水电站解放沟左岸边坡倾倒变形机制的3D数值模拟[J]. 煤田地质与勘探,2004,13(4):40–43.(XU Peihua,CHEN Jianping,HUANG Runqiu,et al. Analyses of 3D numerical simulation of toppling deformation mechanism of Jiefanggou left slope in Jingping Step1 hydropower station[J]. Coal Geology and Exploration,2004,13(4):40–43.(in Chinese))
|
| [16] |
吴 昊,赵 维,年廷凯,等. 反倾层状岩质边坡倾倒破坏的离心模型试验研究[J]. 水利学报,2018,49(2):223–231.(WU Hao,ZHAO Wei,NIAN Tingkai,et al. Study on the anti-dip layered rock slope toppling failure based on centrifuge model test[J]. Journal of Hydraulic Engineering,2018,49(2):223–231.(in Chinese))
|
| [17] |
闫怡秋,郭长宝,张永双,等. 基于SBAS-InSAR技术的西藏雄巴古滑坡变形特征[J]. 地质学报,2021,95(11):3 556–3 570.(YAN Yiqiu,GUO Changbao,ZHANG Yongshuang,et al. Study of the deformation characteristics of the Xiongba ancient landslide based on SBAS-InSAR method,Tibet,China[J]. Acta Geologica Sinica,2021,95(11):3 556–3 570.(in Chinese))
|
| [18] |
BIANCHINI S,CIGNA F,VENTISETTE C D,et al. Detecting and monitoring landslide phenomena with TerraSAR-X persistent scatterers data:the Gimigliano case study in Calabria Region(Italy)[C]// International Geoscience and Remote Sensing Symposium. American:IEEE,2012:982–985.
|
| [19] |
闫怡秋,郭长宝,钟 宁,等. 基于InSAR形变监测的四川甲居古滑坡变形特征[J]. 地球科学,2022,47(12):4 681–4 697.(YAN Yiqiu,GUO Changbao,ZHONG Ning,et al. Deformation characteristics of Jiaju ancient landslide based on InSAR monitoring method,Sichuan,China[J]. Earth Science,2022,47(12):4 681–4 697.(in Chinese))
|
| [20] |
王尚晓,李士垚,牛瑞卿. 木鱼包滑坡形变特征的InSAR监测分析[J]. 长江科学院院报,2022,39(4):77–84.(WANG Shangxiao,LI Shiyao,NIU Ruiqing. Monitoring slope displacements of Muyubao landslide using InSAR analysis technique[J]. Journal of Yangtze River Scientific Research Institute,2022,39(4):77–84.(in Chinese))
|
| [21] |
闫少杰,樊恒通,黄其欢,等. 星载InSAR技术在库岸边坡稳定性识别与监测中的应用[J]. 工程勘察,2022,50(1):61–64.(YAN Shaojie,FAN Hengtong,HUANG Qihuan,et al. Landslide monitoring based on space-borne InSAR technique in reservoir districts[J]. Geotechnical Investigation and Surveying,2022,50(1):61–64.(in Chinese))
|
| [22] |
刘沛源,常 鸣,武彬彬,等. 基于SBAS-InSAR技术的成汶高速汶川段滑坡易发区选线研究[J]. 地球科学,2022,47(6):2 048–2 057. (LIU Peiyuan,CHANG Ming,WU Binbin,et al. Route selection of landslide prone area in Wenchuan section of Chengdu—Wenchuan Expressway based on SBAS-InSAR[J]. Earth Science,2022,47(6):2 048–2 057.(in Chinese))
|
| [23] |
何佳阳,巨能攀,解明礼,等. 高山峡谷地区地质灾害隐患InSAR识别技术对比[J]. 地球科学,2023,48(11):4 295–4 310.(HE Jiayang,JU Nengpan,XIE Mingli,et al. Comparison of InSAR technology for identification of hidden dangers of geological hazards in alpine and canyon areas[J]. Earth Science,2023,48(11):4 295–4 310.(in Chinese))
|
| [24] |
高秉海,何 毅,张立峰,等. 顾及InSAR形变的CNN滑坡易发性动态评估——以刘家峡水库区域为例[J]. 岩石力学与工程学报,2023,42(2):450–465.(GAO Binghai,HE Yi,ZHANG Lifeng,et al. Dynamic evaluation of landslide susceptibility by CNN considering InSAR deformation:A case study of Liuiiaxia reservoir[J]. Chinese Journal of Rock Mechanics and Engineering,2023,42(2):450–465.(in Chinese))
|
| [25] |
任开瑀,姚 鑫,赵小铭,等. 基于时序InSAR、GPS、影像偏移测量3种监测数据的滑坡失稳破坏预测研究[J]. 岩石力学与工程学报,2020,39(增2):3 421–3 431.(REN Kaiyu,YAO Xin,ZHAO Xiaoming,et al. Study of landslide failure prediction based on TS-InSAR,GPS and image offset monitoring[J]. Chinese Journal of Rock Mechanics and Engineering,2020,39(Supp.2):3 421–3 431.(in Chinese))
|
| [26] |
WASOWSKI J,BOVENGA F,Investigating landslides and unstable slopes with satellite multi temporal interferometry:current issues and future perspectives[J]. Engineering Geology,2014,174(1):103–138.
|
| [27] |
朱建军,李志伟,胡 俊. InSAR变形监测方法与研究进展[J]. 测绘学报,2017,46(10):1 717–1 733.(ZHU Jianjun,LI Zhiwei,HU Jun. Research progress and methods of InSAR for deformation monitoring[J]. Acta Geodaetica et Cartographica Sinica,2017,46(10):1 717–1 733.(in Chinese))
|
| [28] |
REN K Y,YAO X,LI R J,et al. 3D displacement and deformation mechanism of deep-seated gravitational slope deformation revealed by InSAR:a case study in Wudongde reservoir,Jinsha River[J]. Landslides,2022,19(9):2 159–2 175.
|
| [29] |
董佳慧,牛瑞卿,亓梦茹,等. InSAR技术和孕灾背景指标相结合的地灾隐患识别[J]. 地质科技通报,2022,41(2):187–196.(DONG Jiahui,NIU Ruiqing,QI Mengru,et al. Identification of geological hazards based on the combination of InSAR technology and disaster background indicators[J]. Bulletin of Geological Science and Technology,2022,41(2):187–196.(in Chinese))
|
| [30] |
LANARI R,CASU F,MANZO M,et al. An overview of the small baseline subset algorithm:a DInSAR technique for surface deformation analysis[J]. Pure and Applied Geophysics,164(4):637–661.
|
| [31] |
石 诚,阮永芬,施炳军,等. 降雨入渗对边坡稳定性影响的敏感性分析[J]. 防灾减灾工程学报,2016,36(6):1 002–1 007.(SHI Cheng,RUAN Yongfen,SHI Bingjun,et al. The sensitivity analysis of influence of rainfall infiltration on landslide stability[J]. Journal of Disaster Prevention and Mitigation Engineering,2016,36(6):1 002–1 007.(in Chinese))
|
| [32] |
周 剑,邓茂林,李卓骏,等. 三峡库区杉树槽滑坡成因及视向滑动机制分析[J]. 防灾减灾工程学报,2020,40(6):860–866.(ZHOU Jian,DENG Maolin,LI Zhuojun,et al. Analysis on the formation and apparent-dip lateral sliding mechanism of Shanshucao landslide in the Three Gorges Reservoir area[J]. Journal of Disaster Prevention and Mitigation Engineering,2020,40(6):860–866.(in Chinese))
|
| [33] |
姚 鑫,张永双,李凌婧,等. 青藏高原鲜水河活动断裂带蠕变斜坡地质灾害InSAR识别研究[J]. 地质学报,2017,91(8):1 694–1 705.(YAO Xin,ZHANG Yongshuang,LI Lingjing,et al. InSAR-based recognition of slow-moving slop disasters along the Xianshuihe active fault in the Qinghai-Tibetan Plateau[J]. Acta Geologica Sinica,2017,91(8):1 694–1 705.(in Chinese))
|
| [34] |
吴瑞安,张永双,郭长宝,等. 西藏加查拉岗村巨型古滑坡发育特征与形成机理研究[J]. 地质学报,2018,92(6):1 324–1 334.(WU Rui?an,ZHANG Yongshuang,GUO Changbao,et al. Characteristics and formation mechanisms of the Lagangcun giant ancient landslide in Jiacha,Tibet[J]. Acta Geologica Sinica,2018,92(6):1 324–1 334.(in Chinese))
|
| [35] |
李 雪,郭长宝,杨志华,等. 金沙江断裂带雄巴巨型古滑坡发育特征与形成机理[J]. 现代地质,2021,35(1):47–55.(LI Xue,GUO Changbao,YANG Zhihua,et al. Development characteristics and formation mechanism of the Xiongba giant ancient landslide in the Jinshajiang tectonic zone[J]. Geoscience,2021,35(1):47–55.(in Chinese))
|
| [36] |
GONG Y F,YAO A J,LI Y L,et al. Model test study on sliding-toppling composite deformation evolution of anti-dip layered rock slope[J]. Bulletin of engineering geology and the environment,2023,82(5):194.
|
| [37] |
罗军尧,朱国金,冯业林,等. GS水电站泄洪出口边坡工程地质特征及稳定性评价[J]. 材料导报,2023,37(增2):283–289.(LUO Junyao,ZHU Guojin,FENG Yelin,et al. Engineering geological characteristics and stability evaluation of slope at discharge outlet of GS Hydropower Station[J]. Materials Reports,2023,37(Supp.2):283–289.(in Chinese))
|
| [38] |
TU G X,DENG H,SHANG Q,et al. Effect of unloading in two directions on the formation of a deep-seated flexural toppling failure[J]. International Journal of Rock Mechanics and Mining Sciences,2021,142(1/2):104790.
|
2024, Vol. 43 
