分享范宣梅Xuanmei研究员 / 博导 ,优青、Richard-Wolters Prize青年科学家奖获得者、自然资源部高层次科技领军人才、四川省“千人计划”特聘专家 扫一扫在手机打开此页面所在单位：地质灾害防治与地质环境保护国家重点实验室，环境与土木工程学院，地质工程（工程地质） 研究领域：地质灾害 职????务： 18208161586fxm_cdut@qq.com84077933个人简介 Introduction发表论文 Paper Publications出版专著 Published Books科技奖励 Science&Tech Awards发明专利 Patents科研项目 Research Projects 基本信息 Introduction范宣梅，成都理工大学，地质灾害防治与地质环境保护国家重点实验室，研究员，致力于地震诱发地质灾害、遥感和地理信息系统在地质学科中的应用研究、地质灾害风险评价与防治等方面的研究，国家优秀青年基金获得者。主要科研成果获国家科技进步一等奖1项（2014），获四川省科技进步一等奖1项（2017）。2015年入选四川省“千人计划”，获第十三届四川省青年科技奖，第二届谷德振青年科技奖，霍英东青年教师基金获得者。2016年获国际工程地质与环境协会(IAEG)?Richard-Wolters?Prize青年科学家奖（我国首位女性获奖者）。2017年获得“首届优秀女地质科技工作者奖”（全国共10名），被评为“四川省突出贡献优秀专家”。2018年入选“自然资源部高层次科技领军人才”。 发表学术论文50余篇，出版英文专著1部，近5年在本领域知名刊物发表SCI学术论文30余篇，1篇发表在《Nature》子刊《Nature?Geoscience》。研究成果得到了国内外同行的高度认可，博士论文被答辩委员会认为是欧洲前5%的优秀论文。2014年通过全球激烈竞争（包括牛津、剑桥大学等毕业的博士生）和多轮答辩和面试，获得联合国培训研究所唯一的灾害应急处理与防治专家职位，受到时任联合国秘书长接见，曾受邀给肯尼亚、越南等国政府官员及哥本哈根大学、日内瓦大学等国际知名学府硕士生授课。主持和参与国家、省部级及欧盟科研项目10余项，是国家自然科学基金委员会创新研究群体核心成员。目前担任比利时列日大学客座教授、国际大型滑坡研究协会（iRALL）秘书、中国地质学会工程地质专业委员会青年工作委员会副秘书长及副主任委员，担任多家SCI期刊编委和审稿专家，包括 “Geo-environmental?Disaster”和“Earth Surface Dynamics”副主编， “Landslides”、“Bulletin?of?Engineering?Geology?and?Environment”编委等，以及捷克科学基金（Czech Science Foundation）和瑞士联邦科学基金外审国际专家。 荣誉称号 Academic Awards and Honors 2018年, “自然资源部高层次创新型领军人才” ; 2017年, “首届优秀女地质科技工作者（全国共十位）” ; 2017年, “四川省突出贡献优秀专家” ; 2016年, “Richard Wolters奖” ; 2016年, “四川省特聘专家:范宣梅” ; 2015年, “第十三届四川省青年科技奖” ; 2014年, “第二届谷德振青年科技奖:范宣梅” ; 1 工作经历 Work Experience2013.10- 2014.02至今， 成都理工大学， 讲师 2014.03- 2015.01至今， 联合国培训研究院（UNITAR）， 副研究员 2015.01- 2016.07至今， 成都理工大学（地质灾害防治与地质环境保护国家重点实验室）， 副研究员 2016.07- 2021.09至今， 成都理工大学（地质灾害防治与地质环境保护国家重点实验室）， 研究员 个人新闻 1. 成都理工海归女博士获省青年... 2. 第一届优秀女地质科技工作者...更多友情链接 1. 成都理工海归女博士获省青年... 2. 第一届优秀女地质科技工作者...更多范宣梅_百度百科Xuanmei Fan_R...范宣梅_成都理工大学教师简...教育经历Education Background 2000.09-2004.07，成都理工大学，地质工程，本科 2004.09-2007.07，成都理工大学，地质工程，硕士研究生 2007.09-2009.08，成都理工大学，地质工程，博士研究生 2009.09-2013.09，荷兰特文特大学，地质灾害，博士研究生 发表论文Paper Publications[1]. 杨琴; 范宣梅; 许强; 戴岚欣; 任敬.北川唐家湾滑坡变形历史与形成机制研究,水文地质工程地质, 2018 ,45 (2):136-141 ( CSCD收录; )[2]. 常鸣; 窦向阳; 范宣梅; 姚成.汶川震区暴雨泥石流激发雨型特征,现代地质, 2018 ,32 (3):623-630 ( CSCD收录; )[3]. 唐然; 许强; 吴斌; 范宣梅.平推式滑坡运动距离计算模型,岩土力学, 2018 ,39 (3):1009- ( EI收录; CSCD收录; )[4]. Fan, Xuanmei; Xu, Qiang; Scaringi, Gianvito.Brief communication: Post-seismic landslides, the tough lesson of a catastrophe,NATURAL HAZARDS AND EARTH SYSTEM SCIENCES, 2018 ,18 (1):397-403 ( SCI收录; )[5]. Fan, R. L.; Zhang, L. M.; Wang, H. J.; Fan, X. M..Evolution of debris flow activities in Gaojiagou Ravine during 2008-2016 after the Wenchuan earthquake,ENGINEERING GEOLOGY, 2018 ,235 ( ):1-10 ( SCIE收录; EI收录; )[6]. Fan, Xuanmei; Zhan, Weiwei; Dong, Xiujun; van Westen, Cees; Xu, Qiang; Dai, Lanxin; Yang, Qin; Huang, Runqiu; Havenith, Hans-Balder.Analyzing successive landslide dam formation by different triggering mechanisms: The case of the Tangjiawan landslide, Sichuan, China,ENGINEERING GEOLOGY, 2018 ,243 ( ):128-144 ( SCIE收录; EI收录; )[7]. Fan, Xuanmei; Juang, C. Hsein; Wasowski, Janusz; Huang, Runqiu; Xu, Qiang; Scaringi, Gianvito; van Westen, Cees J.; Havenith, Hans-Balder.What we have learned from the 2008 Wenchuan Earthquake and its aftermath: A decade of research and challenges,ENGINEERING GEOLOGY, 2018 ,241 ():25-32 ( SCIE收录; EI收录; )[8]. Scaringi, Gianvito; Fan, Xuanmei; Xu, Qiang; Liu, Chun; Ouyang, Chaojun; Domenech, Guillem; Yang, Fan; Dai, Lanxin.Some considerations on the use of numerical methods to simulate past landslides and possible new failures: the case of the recent Xinmo landslide (Sichuan, China),LANDSLIDES, 2018 ,15 (7):1359-1375 ( SCIE收录; EI收录; )[9]. Huang, R.; Fan, X.; Xu, Q.; Scaringi, G.; Hu, W.; Rengers, N.; Wang, G..The iRALL Doctoral School 2018: advanced studies on large landslides on the 10th anniversary of the Wenchuan earthquake,LANDSLIDES, 2018 ,15 (9):1901-1903 ( SCIE收录; EI收录; )[10]. Fan, Xuanmei; Scaringi, Gianvito; Xu, Qiang; Zhan, Weiwei; Dai, Lanxin; Li, Yusheng; Pei, Xiangjun; Yang, Qin; Huang, Runqiu.Coseismic landslides triggered by the 8th August 2017 M-s 7.0 Jiuzhaigou earthquake (Sichuan, China): factors controlling their spatial distribution and implications for the seismogenic blind fault identification,LANDSLIDES, 2018 ,15 (5):967-983 ( SCIE收录; EI收录; )[11]. Tang, Ran(1); Fan, Xuanmei(1,2); Scaringi, Gianvito(1,2); Xu, Qiang(1); van Westen, Cees J.(3); Ren, Jing(1); Havenith, Hans-Balder(4).Distinctive controls on the distribution of river-damming and non-damming landslides induced by the 2008 Wenchuan earthquake,Bulletin of Engineering Geology and the Environment, 2018 ,- (-):- ( EI收录; SCI收录; )[12]. Fan, Xuanmei(1); Domènech, Guillem(1); Scaringi, Gianvito(1); Huang, Runqiu(1); Xu, Qiang(1); Hales, Tristram C.(2); Dai, Lanxin(1); Yang, Qin(1); Francis, Oliver(2).Spatio-temporal evolution of mass wasting after the 2008 Mw 7.9 Wenchuan earthquake revealed by a detailed multi-temporal inventory,Landslides, 2018 ,- (-):- ( EI收录; SCI收录; )[13]. Fan, Xuanmei(1); Xu, Qiang(1); Scaringi, Gianvito(1,2); Zheng, Guang(1); Huang, Runqiu(1); Dai, Lanxin(1); Ju, Yuanzhen(1).The “long” runout rock avalanche in Pusa, China, on August 28, 2017: a preliminary report,Landslides, 2018 ,- (-):- ( EI收录; SCI收录; )[14]. Zhan, Weiwei; Fan, Xuanmei; Huang, Runqiu; Pei, Xiangjun; Xu, Qiang; Li, Weile.Empirical prediction for travel distance of channelized rock avalanches in the Wenchuan earthquake area,NATURAL HAZARDS AND EARTH SYSTEM SCIENCES, 2017 ,17 (6):833-844 ( SCI收录; )[15]. Fan, Xuanmei; Xu, Qiang; Scaringi, Gianvito; Li, Shu; Peng, Dalei.A chemo-mechanical insight into the failure mechanism of frequently occurred landslides in the Loess Plateau, Gansu Province, China,ENGINEERING GEOLOGY, 2017 ,228 (-):337-345 ( SCI收录; EI收录; )123[1]. 北川唐家湾滑坡变形历史与形成机制研究.. 2018. [2]. 汶川震区暴雨泥石流激发雨型特征.. 2018. [3]. 平推式滑坡运动距离计算模型.. 2018. [4]. Brief communication: Post-seismic landslides, the tough lesson of a catastrophe.. 2018. [5]. Evolution of debris flow activities in Gaojiagou Ravine during 2008-2016 after the Wenchuan earthquake.. 2018. [6]. Analyzing successive landslide dam formation by different triggering mechanisms: The case of the Tangjiawan landslide, Sichuan, China.. 2018. [7]. What we have learned from the 2008 Wenchuan Earthquake and its aftermath: A decade of research and challenges.. 2018. [8]. Some considerations on the use of numerical methods to simulate past landslides and possible new failures: the case of the recent Xinmo landslide (Sichuan, China).. 2018. [9]. The iRALL Doctoral School 2018: advanced studies on large landslides on the 10th anniversary of the Wenchuan earthquake.. 2018. [10]. Coseismic landslides triggered by the 8th August 2017 M-s 7.0 Jiuzhaigou earthquake (Sichuan, China): factors controlling their spatial distribution and implications for the seismogenic blind fault identification.. 2018. [11]. Distinctive controls on the distribution of river-damming and non-damming landslides induced by the 2008 Wenchuan earthquake.. 2018. [12]. Spatio-temporal evolution of mass wasting after the 2008 Mw 7.9 Wenchuan earthquake revealed by a detailed multi-temporal inventory.. 2018. [13]. The “long” runout rock avalanche in Pusa, China, on August 28, 2017: a preliminary report.. 2018. [14]. Empirical prediction for travel distance of channelized rock avalanches in the Wenchuan earthquake area.. 2017. [15]. A chemo-mechanical insight into the failure mechanism of frequently occurred landslides in the Loess Plateau, Gansu Province, China.. 2017. 1[1]. 杨琴; 范宣梅; 许强; 戴岚欣; 任敬. 北川唐家湾滑坡变形历史与形成机制研究.:, 2018 [2]. 常鸣; 窦向阳; 范宣梅; 姚成. 汶川震区暴雨泥石流激发雨型特征.:, 2018 [3]. 唐然; 许强; 吴斌; 范宣梅. 平推式滑坡运动距离计算模型.:, 2018 [4]. Fan, Xuanmei; Xu, Qiang; Scaringi, Gianvito. Brief communication: Post-seismic landslides, the tough lesson of a catastrophe.:, 2018 [5]. Fan, R. L.; Zhang, L. M.; Wang, H. J.; Fan, X. M.. Evolution of debris flow activities in Gaojiagou Ravine during 2008-2016 after the Wenchuan earthquake.:, 2018 [6]. Fan, Xuanmei; Zhan, Weiwei; Dong, Xiujun; van Westen, Cees; Xu, Qiang; Dai, Lanxin; Yang, Qin; Huang, Runqiu; Havenith, Hans-Balder. Analyzing successive landslide dam formation by different triggering mechanisms: The case of the Tangjiawan landslide, Sichuan, China.:, 2018 [7]. Fan, Xuanmei; Juang, C. Hsein; Wasowski, Janusz; Huang, Runqiu; Xu, Qiang; Scaringi, Gianvito; van Westen, Cees J.; Havenith, Hans-Balder. What we have learned from the 2008 Wenchuan Earthquake and its aftermath: A decade of research and challenges.:, 2018 [8]. Scaringi, Gianvito; Fan, Xuanmei; Xu, Qiang; Liu, Chun; Ouyang, Chaojun; Domenech, Guillem; Yang, Fan; Dai, Lanxin. Some considerations on the use of numerical methods to simulate past landslides and possible new failures: the case of the recent Xinmo landslide (Sichuan, China).:, 2018 [9]. Huang, R.; Fan, X.; Xu, Q.; Scaringi, G.; Hu, W.; Rengers, N.; Wang, G.. The iRALL Doctoral School 2018: advanced studies on large landslides on the 10th anniversary of the Wenchuan earthquake.:, 2018 [10]. Fan, Xuanmei; Scaringi, Gianvito; Xu, Qiang; Zhan, Weiwei; Dai, Lanxin; Li, Yusheng; Pei, Xiangjun; Yang, Qin; Huang, Runqiu. Coseismic landslides triggered by the 8th August 2017 M-s 7.0 Jiuzhaigou earthquake (Sichuan, China): factors controlling their spatial distribution and implications for the seismogenic blind fault identification.:, 2018 [11]. Tang, Ran(1); Fan, Xuanmei(1,2); Scaringi, Gianvito(1,2); Xu, Qiang(1); van Westen, Cees J.(3); Ren, Jing(1); Havenith, Hans-Balder(4). Distinctive controls on the distribution of river-damming and non-damming landslides induced by the 2008 Wenchuan earthquake.:, 2018 [12]. Fan, Xuanmei(1); Domènech, Guillem(1); Scaringi, Gianvito(1); Huang, Runqiu(1); Xu, Qiang(1); Hales, Tristram C.(2); Dai, Lanxin(1); Yang, Qin(1); Francis, Oliver(2). Spatio-temporal evolution of mass wasting after the 2008 Mw 7.9 Wenchuan earthquake revealed by a detailed multi-temporal inventory.:, 2018 [13]. Fan, Xuanmei(1); Xu, Qiang(1); Scaringi, Gianvito(1,2); Zheng, Guang(1); Huang, Runqiu(1); Dai, Lanxin(1); Ju, Yuanzhen(1). The “long” runout rock avalanche in Pusa, China, on August 28, 2017: a preliminary report.:, 2018 [14]. Zhan, Weiwei; Fan, Xuanmei; Huang, Runqiu; Pei, Xiangjun; Xu, Qiang; Li, Weile. Empirical prediction for travel distance of channelized rock avalanches in the Wenchuan earthquake area.:, 2017 [15]. Fan, Xuanmei; Xu, Qiang; Scaringi, Gianvito; Li, Shu; Peng, Dalei. A chemo-mechanical insight into the failure mechanism of frequently occurred landslides in the Loess Plateau, Gansu Province, China.:, 2017 1[1]. . 北川唐家湾滑坡变形历史与形成机制研究. . , 2021.09.13 [2]. . 汶川震区暴雨泥石流激发雨型特征. . , 2021.09.13 [3]. . 平推式滑坡运动距离计算模型. . , 2021.09.13 [4]. . Brief communication: Post-seismic landslides, the tough lesson of a catastrophe. . , 2021.09.13 [5]. . Evolution of debris flow activities in Gaojiagou Ravine during 2008-2016 after the Wenchuan earthquake. . , 2021.09.13 [6]. . Analyzing successive landslide dam formation by different triggering mechanisms: The case of the Tangjiawan landslide, Sichuan, China. . , 2021.09.13 [7]. . What we have learned from the 2008 Wenchuan Earthquake and its aftermath: A decade of research and challenges. . , 2021.09.13 [8]. . Some considerations on the use of numerical methods to simulate past landslides and possible new failures: the case of the recent Xinmo landslide (Sichuan, China). . , 2021.09.13 [9]. . The iRALL Doctoral School 2018: advanced studies on large landslides on the 10th anniversary of the Wenchuan earthquake. . , 2021.09.13 [10]. . Coseismic landslides triggered by the 8th August 2017 M-s 7.0 Jiuzhaigou earthquake (Sichuan, China): factors controlling their spatial distribution and implications for the seismogenic blind fault identification. . , 2021.09.13 [11]. . Distinctive controls on the distribution of river-damming and non-damming landslides induced by the 2008 Wenchuan earthquake. . , 2021.09.13 [12]. . Spatio-temporal evolution of mass wasting after the 2008 Mw 7.9 Wenchuan earthquake revealed by a detailed multi-temporal inventory. . , 2021.09.13 [13]. . The “long” runout rock avalanche in Pusa, China, on August 28, 2017: a preliminary report. . , 2021.09.13 [14]. . Empirical prediction for travel distance of channelized rock avalanches in the Wenchuan earthquake area. . , 2021.09.13 [15]. . A chemo-mechanical insight into the failure mechanism of frequently occurred landslides in the Loess Plateau, Gansu Province, China. . , 2021.09.13 1[1] .. 北川唐家湾滑坡变形历史与形成机制研究.,2021.09.13 [2] .. 汶川震区暴雨泥石流激发雨型特征.,2021.09.13 [3] .. 平推式滑坡运动距离计算模型.,2021.09.13 [4] .. Brief communication: Post-seismic landslides, the tough lesson of a catastrophe.,2021.09.13 [5] .. Evolution of debris flow activities in Gaojiagou Ravine during 2008-2016 after the Wenchuan earthquake.,2021.09.13 [6] .. Analyzing successive landslide dam formation by different triggering mechanisms: The case of the Tangjiawan landslide, Sichuan, China.,2021.09.13 [7] .. What we have learned from the 2008 Wenchuan Earthquake and its aftermath: A decade of research and challenges.,2021.09.13 [8] .. Some considerations on the use of numerical methods to simulate past landslides and possible new failures: the case of the recent Xinmo landslide (Sichuan, China).,2021.09.13 [9] .. The iRALL Doctoral School 2018: advanced studies on large landslides on the 10th anniversary of the Wenchuan earthquake.,2021.09.13 [10] .. Coseismic landslides triggered by the 8th August 2017 M-s 7.0 Jiuzhaigou earthquake (Sichuan, China): factors controlling their spatial distribution and implications for the seismogenic blind fault identification.,2021.09.13 [11] .. Distinctive controls on the distribution of river-damming and non-damming landslides induced by the 2008 Wenchuan earthquake.,2021.09.13 [12] .. Spatio-temporal evolution of mass wasting after the 2008 Mw 7.9 Wenchuan earthquake revealed by a detailed multi-temporal inventory.,2021.09.13 [13] .. The “long” runout rock avalanche in Pusa, China, on August 28, 2017: a preliminary report.,2021.09.13 [14] .. Empirical prediction for travel distance of channelized rock avalanches in the Wenchuan earthquake area.,2021.09.13 [15] .. A chemo-mechanical insight into the failure mechanism of frequently occurred landslides in the Loess Plateau, Gansu Province, China.,2021.09.13 [1]. 北川唐家湾滑坡变形历史与形成机制研究.:2021.09 - 2021.09 [2]. 汶川震区暴雨泥石流激发雨型特征.:2021.09 - 2021.09 [3]. 平推式滑坡运动距离计算模型.:2021.09 - 2021.09 [4]. Brief communication: Post-seismic landslides, the tough lesson of a catastrophe.:2021.09 - 2021.09 [5]. Evolution of debris flow activities in Gaojiagou Ravine during 2008-2016 after the Wenchuan earthquake.:2021.09 - 2021.09 [6]. Analyzing successive landslide dam formation by different triggering mechanisms: The case of the Tangjiawan landslide, Sichuan, China.:2021.09 - 2021.09 [7]. What we have learned from the 2008 Wenchuan Earthquake and its aftermath: A decade of research and challenges.:2021.09 - 2021.09 [8]. Some considerations on the use of numerical methods to simulate past landslides and possible new failures: the case of the recent Xinmo landslide (Sichuan, China).:2021.09 - 2021.09 [9]. The iRALL Doctoral School 2018: advanced studies on large landslides on the 10th anniversary of the Wenchuan earthquake.:2021.09 - 2021.09 [10]. Coseismic landslides triggered by the 8th August 2017 M-s 7.0 Jiuzhaigou earthquake (Sichuan, China): factors controlling their spatial distribution and implications for the seismogenic blind fault identification.:2021.09 - 2021.09 [11]. Distinctive controls on the distribution of river-damming and non-damming landslides induced by the 2008 Wenchuan earthquake.:2021.09 - 2021.09 [12]. Spatio-temporal evolution of mass wasting after the 2008 Mw 7.9 Wenchuan earthquake revealed by a detailed multi-temporal inventory.:2021.09 - 2021.09 [13]. The “long” runout rock avalanche in Pusa, China, on August 28, 2017: a preliminary report.:2021.09 - 2021.09 [14]. Empirical prediction for travel distance of channelized rock avalanches in the Wenchuan earthquake area.:2021.09 - 2021.09 [15]. A chemo-mechanical insight into the failure mechanism of frequently occurred landslides in the Loess Plateau, Gansu Province, China.:2021.09 - 2021.09 1出版专著Published Books[1]. Xuanmei Fan.Understanding the causes and effects of earthquake-induced landslide dams,, 2013 , : ()123[1]. Understanding the causes and effects of earthquake-induced landslide dams.. 2013. Doctoral thesis 1[1]. Xuanmei Fan. Understanding the causes and effects of earthquake-induced landslide dams.-:ITC Printing Department, 2013 1[1]. . Understanding the causes and effects of earthquake-induced landslide dams. Doctoral thesis. , 2021.09.13 1[1] .. Understanding the causes and effects of earthquake-induced landslide dams.,2021.09.13 [1]. Understanding the causes and effects of earthquake-induced landslide dams.:2021.09 - 2021.09 1科技奖励Science&Tech Awards[1]. .西部大型工程危岩体灾变过程及防控技术体系研究,, 2016 , : ()[2]. .汶川地震地质灾害评价与防治,, 2014 , : ()123[1]. 西部大型工程危岩体灾变过程及防控技术体系研究.黄润秋;裴向军;张世殊;董秀军;王东坡;宋胜武;刘卫华;魏玉峰;范宣梅;孙书勤. 2016. 四川省科学技术进步奖 一等奖 [2]. 汶川地震地质灾害评价与防治.黄润秋;许强;裴向军;唐川;李为乐;王运生;范宣梅;罗永红;余斌;李渝生;李勇;沈军辉;冯文凯;赵建军;巨能攀. 2014. 国家科学技术进步奖 一等奖 1[1]. . 西部大型工程危岩体灾变过程及防控技术体系研究.:, 2016 [2]. . 汶川地震地质灾害评价与防治.:, 2014 1[1]. . 西部大型工程危岩体灾变过程及防控技术体系研究. 四川省科学技术进步奖. , 2021.09.13 [2]. . 汶川地震地质灾害评价与防治. 国家科学技术进步奖. , 2021.09.13 1[1] .. 西部大型工程危岩体灾变过程及防控技术体系研究.,2021.09.13 [2] .. 汶川地震地质灾害评价与防治.,2021.09.13 [1]. 西部大型工程危岩体灾变过程及防控技术体系研究.:2021.09 - 2021.09 [2]. 汶川地震地质灾害评价与防治.:2021.09 - 2021.09 1发明专利Patents[1]. .一种平推式滑坡运动距离计算方法及应用,, 2017 , : ()[2]. .一种计算粘性泥石流堵江的临界条件方法,, 2017 , : ()123[1]. 一种平推式滑坡运动距离计算方法及应用.. 2017. 发明专利 [2]. 一种计算粘性泥石流堵江的临界条件方法.. 2017. 发明专利 1[1]. . 一种平推式滑坡运动距离计算方法及应用.:, 2017 [2]. . 一种计算粘性泥石流堵江的临界条件方法.:, 2017 1[1]. 范宣梅. 一种平推式滑坡运动距离计算方法及应用. 发明专利. CN201710443828.8, 2017.06.13 [2]. 范宣梅. 一种计算粘性泥石流堵江的临界条件方法. 发明专利. CN201710432867.8, 2017.09.27 1[1] .. 一种平推式滑坡运动距离计算方法及应用.,2017.06.13 [2] .. 一种计算粘性泥石流堵江的临界条件方法.,2017.09.27 [1]. 一种平推式滑坡运动距离计算方法及应用.:2021.09 - 2021.09 [2]. 一种计算粘性泥石流堵江的临界条件方法.:2021.09 - 2021.09 1软件著作权Software Copyrights1231111科研项目Research Projects[1]. .“8.8”九寨沟地震后地质灾害链动态演化与长期效应研究,, 2018 , : ()123[1]. “8.8”九寨沟地震后地质灾害链动态演化与长期效应研究.. 2018. 建设性专项项目 1[1]. . “8.8”九寨沟地震后地质灾害链动态演化与长期效应研究.:, 2018 1[1]. . “8.8”九寨沟地震后地质灾害链动态演化与长期效应研究. 建设性专项项目. , 2021.09.13 1[1] .. “8.8”九寨沟地震后地质灾害链动态演化与长期效应研究.,2021.09.13 [1]. “8.8”九寨沟地震后地质灾害链动态演化与长期效应研究.建设性专项项目:2018.05 - 2019.12 1相关资源均是用户自行上传分享，仅供学术交流之用?2019 环境与土木工程学院地质灾害防治与地质环境保护国家重点实验室技术支持：应子科技（成都）有限公司