分享周伟Wei Zhou教授 / 博士生导师 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，工程力学系 研究领域：地质灾害预测评价 职????务： chouvw@163.com; zhouwei2012@cdut.cn个人简介 Introduction发表论文 Paper Publications发明专利 Patents 基本信息 Introduction? ? ? ?周伟，男，汉族，1984年2月生，博士，教授，博士生导师，无党派人士。地质灾害防治与地质环境保护国家重点实验室固定研究人员、中国力学学会会员、四川省力学学会会员、欧洲地球科学联合会会员（European Geosciences Union Life member）。2011年起就职于成都理工大学环境与土木工程学院地质工程系，工程力学系，历任讲师，副教授，教授。擅长于泥石流形成机理分析、监测预警、风险防控和区域地质灾害风险评价。主持国家级项目2项，主研国家级和省部级项目10余项。发表论文18篇，其中SCI/EI论文13篇。参与编写专著1部，获得授权发明专利5项，软件著作权15项。担任Journal of Hydrology、Landslides、CATENA、International Journal of Remote Sensing、Natural hazards、Environmental Earth Sciences、Arabian Journal of Geosciences、Journal of Mountain Science、Earth Sciences Research Journal?等国际SCI期刊审稿人。 研究方向 Research interests （1）暴雨泥石流预测预报 （2）泥石流形成机制分析 （3）泥石流防治技术及效益评价 （4）地质灾害风险评价 （5）区域滑坡规模频率关系分析 招生信息 Advising 博士研究生招生专业： （1）地质资源与地质工程 （地质工程） （2）土木工程? （岩土工程、防灾减灾工程及防护工程） 硕士研究生招生专业： （1）地质资源与地质工程 （地质工程） （2）土木工程? （岩土工程、防灾减灾工程及防护工程） （3）资源与环境 （地质灾害防控） （4）土木水利?（岩土工程、防灾减灾工程及防护工程） 招生要求： （1）学习目的明确，对科研感兴趣； （2）数理基础知识扎实、力学功底较好； （3）英文水平较好，具有一定的编程能力； （4）欢迎具有GIS、统计、遥感、数学等学科背景的考生报考。 招生名额：博士生2名，硕士生4名 研究生待遇： （1）获得质量提升计划资助者，可潜心做科研，不为衣食所困扰。 （2）提供团体意外险、意外伤害团体医疗保险、意外伤害住院补贴团体医疗保险 各一份，保额20万。 （3）择优支持参加国内高水平学术会议。择优与中科院相关研究所联合培养，推荐硕博连读或提前攻博。 （4）其他可面谈。 毕业时具备的能力： （1）具备良好的科学思维，能胜任一般的科研工作。 （2）能凝练研究成果，撰写发明专利和高质量科技论文（包括SCI、EI和中文核心）。 （3）熟练制作专业性较强的学术PPT，自信当众演讲交流。 （4）具备较高的工作效率。能针对需要，独立开发小型专业软件。 （5）熟练使用部分科研工具软件，包括GIS、数值仿真分析、统计分析、编程、图像处理和办公等软件。 课程教学 Teaching ? ? ? ?主要给本科生讲授工程力学、流体力学、结构力学和建筑力学。 学期? ? ? ? ?课程名称??课时??授课对象?人数 201202?? ?工程力学?? ?56?? ?本科生? ? ?23 201301?? ?工程力学?? ?64?? ?本科生? ? ?76 201301?? ?工程力学?? ?64?? ?本科生? ? ?88 201302?? ?工程力学?? ?64?? ?本科生? ? ?81 201302?? ?工程力学?? ?56?? ?本科生? ? ?47 201401?? ?工程力学?? ?64?? ?本科生? ? ?62 201401?? ?工程力学?? ?64?? ?本科生? ? ?88 201402?? ?工程力学?? ?64?? ?本科生? ? ?83 201501?? ?结构力学?? ?80?? ?本科生? ? ?56 201501?? ?流体力学?? ?48?? ?本科生? ? ?37 201502?? ?工程力学?? ?64?? ?本科生? ? ?81 201502?? ?建筑力学?? ?64?? ?本科生? ? ?44 201601?? ?结构力学?? ?80?? ?本科生? ? ?72 201601?? ?结构力学?? ?80?? ?本科生? ? ?59 201602?? ?工程力学?? ?64? ? 本科生? ? ?41 201701?? ?结构力学?? ?80?? ?本科生? ? ?28 201701?? ?流体力学?? ?48?? ?本科生? ? ?29 201702?? ?工程力学?? ?64?? ?本科生? ? ?67 201801?? ?流体力学?? ?48?? ?本科生? ? ?52 201801?? ?工程力学?? ?72?? ?本科生? ? ?60 201802?? ?工程力学?? ?64?? ?本科生? ? ?36 201802?? ?工程力学?? ?40?? ?本科生? ? ?57 201901?? ?结构力学?? ?64?? ?本科生? ? ?80 201901?? ?流体力学?? ?48?? ?本科生? ? ?56 201902?? ?流体力学?? ?40?? ?本科生? ? ?56 201902????流体力学课程设计????1周????本科生????55 202001????结构力学????40????本科生?????33 202001????结构力学????80????本科生?????33 202002????工程力学????64????本科生?????62 202002????流体力学????40????本科生?????52 202002????流体力学课程设计????1周????本科生????52 科研项目 Project ? ? ? ?共承担科研项目30余项，其中国家自然科学基金、国家重点研发计划、国家科技支撑计划、国家重点基础研究发展计划、国家科技基础性工作专项等国家级项目9项，中科院、中国地质调查局和四川省科技厅等省部级项目6项。主持科研项目8项，其中国家级项目2项。 ? ? ? ?在研项目： [1] 国家重点研发计划项目课题（国家级），强震区地质灾害动态演化机制与长期效应，2018.01-2021.12，主研（第一），子课题负责人 [2] 国家自然科学基金（国家级），基于动力过程的泥石流防治工程减灾效果量化评价研究，?? 2019.01-2022.12，主研（第一） [3] 国家重点研发计划项目子课题（国家级），滑坡地质结构演化规律与重大滑坡灾变控制模型，2018.01-2021.12，主研（第一） [4] 国家重点实验室自主课题，基于机器学习的强震区崩塌滑坡易发性评价，2020.01-2021.12，项目负责人 ? ? ? 代表性结题项目： [1] 国家自然科学基金（国家级），汶川震区暴雨泥石流活动规模预测模型研究，2016.01-2019.12，项目负责人 [2] 国家自然科学基金（国家级），汶川震区不同激发雨型条件下泥石流启动的临界雨量特征， 2013.01-2015.12，项目负责人 [3] 国家科技基础性工作专项课题（国家级），西南地形急变带重点城镇和重大工程地质灾害风险评价及预警降雨指标研究，2011.06-2016.05，主研（第一） 科研成果 Publications ? ? ? ?发表学术论文18篇，SCI/ EI论文13篇，核心期刊论文5篇。参与撰写专著1部，获得授权发明专利5项，计算机软件著作权8项。 ? ? ? ?代表性著作如下： SCI论文： [1] Zhou W*, Fang JY, Tang C, Yang GY, 2019. Empirical relationships for the estimation of debris flow runout distances on depositional fans in the Wenchuan earthquake zone. Journal of Hydrology, 577: 123932. (中科院JCR 1区，TOP期刊，IF=4.5) [2] Zhou W*, Tang C, Van Asch T W J, Chang M, 2016. A rapid method to identify the potential of debris flow development induced by rainfall in the catchments of the Wenchuan earthquake area. Landslides, 13(5): 1243–1259. (中科院JCR 2区，IF=4.708) [3] Zhou W*, Tang C, 2014. Rainfall thresholds for debris flow initiation in the Wenchuan earthquake-stricken area, southwestern China. Landslides, 11 (5): 877–887. (中科院JCR 2区，IF=4.708) [4] Zhou W*, Tang C, Van Asch T W J, Zhou CH, 2014. Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area. Natural Hazards, 70 (2): 1417–1435. (中科院JCR 3区，?IF=2.427) [5] Van Asch T W J*, Tang C, Alkema D, Zhu J, Zhou W, 2014. An integrated model to assess critical rainfall thresholds for run-out distances of debris flows. Natural Hazards, 70 (1): 299–311. (中科院JCR 3区，?IF=2.427) EI期刊论文： [1] 周伟*, 邓玖林. 基于Fisher判别法的台风暴雨泥石流预测模型[J]. 水科学进展, 2019, 30(3): 392–400.? [2] 周伟*, 唐川. 汶川震区暴雨泥石流发生的降雨阈值[J]. 水科学进展, 2013, 24 (6): 786–793.? [3] 周伟*, 唐川, 周春花. 汶川震区暴雨泥石流激发雨量特征[J]. 水科学进展, 2012, 23 (5): 650–655.? 专著： [1] 陈宁生，杨成林，周伟，胡桂胜，邓明枫，杨昆.?泥石流勘查技术[M].?北京：科学出版社. 2011. ISBN：9787030302694 English Introduction Dr.?Wei?Zhou Professor Office:?Room?202,?Old?Building?of?Environment?and?Civil?Engineering Work Address:?Department?of?Engineering?Mechanics ? ? ? ? ? ? ? ? ? ? ? ? ?State?Key?Laboratory?of?Geohazard?Prevention?and?Geoenvironment?Protection (SKLGP) ? ? ? ? ? ? ? ? ? ? ? ? ?Chengdu?University?of?Technology, P.R.?China E-mail:?chouvw@163.com?;?zhouwei2012@cdut.cn Education Ph.D. ??Geotechnical Engineering, University of Chinese Academy of Sciences, 2011 B.E.? ? ? Civil Engineering, Southwest Jiaotong University, 2006 Positions Held 12/2019-present, Professor, Department of Engineering Mechanics/ SKLGP, Chengdu University of Technology 10/2013-12/2019, Associate Professor, Department of Engineering Mechanics/ SKLGP, Chengdu University of Technology 07/2011-10/2013, Lecturer, Department of Engineering Mechanics/ SKLGP, Chengdu University of Technology Teaching Experience Undergraduate courses taught: Engineering?Mechanics Structural Mechanics Fluid Mechanics Architectural Mechanics Term? ? ? ?Course??????????????????? ? ? ? ? ? ? ? ? ? ? ? ?Hours?? ?Target audience??Students number 201202?? ?Engineering Mechanics?? ??? ?????????? ????56???? ??Undergraduate? ? ?23 201301?? ?Engineering Mechanics?? ??? ?????????? ????64???? ??Undergraduate? ? ?76 201301?? ?Engineering Mechanics?? ??? ?????????? ????64?? ?? ?Undergraduate? ? ?88 201302?? ?Engineering Mechanics?? ??? ?????????? ????64??? ? ?Undergraduate? ? ?81 201302?? ?Engineering Mechanics?? ??? ?????????? ????56??? ? ?Undergraduate? ? ?47 201401?? ?Engineering Mechanics?? ??? ?????????? ????64???? ??Undergraduate? ? ?62 201401?? ?Engineering Mechanics?? ??? ?????????? ????64??? ? ?Undergraduate? ? ?88 201402?? ?Engineering Mechanics?? ??? ?????????? ????64??? ? ?Undergraduate? ? ?83 201501?? ?Structural Mechanics? ? ? ? ? ? ? ? ? ? ? ? ? 80??? ? ?Undergraduate? ? ?56 201501?? ?Fluid Mechanics? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? 48?? ?? ?Undergraduate? ? ?37 201502?? ?Engineering Mechanics?? ??? ?????????? ????64?? ?? ?Undergraduate? ? ?81 201502?? ?Architectural Mechanics?? ??? ????????? ????64?? ?? ?Undergraduate? ? ?44 201601?? ?Structural Mechanics?? ???????????????????? ??80??? ? ?Undergraduate? ? ?72 201601?? ?Structural Mechanics?? ???????????????????? ??80??? ? ?Undergraduate? ? ?59 201602?? ?Engineering Mechanics? ? ? ? ? ? ? ? ? ? ? ?32?? ?? ?Undergraduate? ? ?41 201701?? ?Structural Mechanics? ? ? ? ? ? ? ? ? ? ? ? ? 80?? ?? ?Undergraduate? ? ?28 201701?? ?Fluid Mechanics??? ?????????????????????????? ???48?? ????Undergraduate? ? ?29 201702?? ?Engineering Mechanics? ? ? ? ? ? ? ? ? ? ? ?64?? ?? ?Undergraduate? ? ?67 201801?? ?Fluid Mechanics?? ??????????????????????????? ???48?? ?? ?Undergraduate? ? ?52 201801?? ?Engineering Mechanics? ? ? ? ? ? ? ? ? ? ? ?72?? ??? Undergraduate? ? ?60 201802?? ?Engineering Mechanics? ? ? ? ? ? ? ? ? ? ? ?64?? ??? Undergraduate? ? ?36 201802?? ?Engineering Mechanics? ? ? ? ? ? ? ? ? ? ? ?40?? ????Undergraduate? ? ?57 201901?? ?Structural Mechanics?? ???????????????????? ???64?? ????Undergraduate? ? ?80 201901?? ?Fluid Mechanics?? ??????????????????????????? ????48?? ????Undergraduate? ? ?56 201902?? ?Fluid Mechanics?? ??????????????????????????? ????40?? ????Undergraduate? ? ?56 201902????Curriculum Design for?Fluid Mechanics???One week????Undergraduate????55 202001????Structural Mechanics???????????????????????????40???????Undergraduate?????33 202001????Structural Mechanics???????????????????????????80???????Undergraduate?????33? 202002????Engineering Mechanics???????????????????????64???????Undergraduate?????62 202002????Fluid Mechanics???????????????????????????????????40???????Undergraduate?????52 202002????Curriculum Design for?Fluid Mechanics???One week????Undergraduate????52 Research Interests Natural Hazards (Landslide, debris flow, collapse, rockfall, draught and flood) Debris Flow Forecasting (Real-time updating, ungauged catchment, uncertainty) Geohazards Risk Assessment and Management (Landslide susceptibility assessment, risk assessment of debris flow, debris flow statistics, frequency analysis) Remote Sensing and Geographic Information System (Satellite, digital elevation model, co-seismic landslides identification) Association Memberships Member of Chinese Society of Theoretical and Applied Mechanics Member of Sichuan Society in Mechanics European Geosciences Union Life member Grant Support (Selected) Research Principal “Prediction of the magnitude of rainfall-induced debris flows in the Wenchuan earthquake area”, National Natural Science Foundation of China, 2016.01-2019.12 Research Principal “Characteristics of critical rainfall for rainfall-induced debris flow with different triggering patterns in Wenchuan Earthquake Area”, National Natural Science Foundation of China, 2013.01-2015.12 Co-researcher “Dynamic evolution mechanism and long term effects of geohazards in the areas struck by high magnitude earthquakes”，National Key Research and Development Program of China, 2018.01-2021.12 Co-researcher “Quantitative evaluation of reduction benefit of debris flow prevention based on dynamic process”, National Natural Science Foundation of China, 2019.01-2022.12 Co-researcher “Geological structure evolution and catastrophic control model of Major landslides”, National Key Research and Development Program of China, 2018.01-2021.12 Co-researcher “Risk assessments of key towns and important engineering projects on landform leaping belt in southwestern China”, Special Program for the Fundamental Research of Science and Technology of the Ministry of Science and Technology, China, 2011.06-2016.05 Co-researcher “Investigation, evaluation and early warning of major geohazards in southwest China”, Geological Investigation Project of China Geological Survey，2013.01-2016.06 Publications Refereed publications (Selected) [1] Zhou W*, Fang JY, Tang C, Yang GY, 2019. Empirical relationships for the estimation of debris flow runout distances on depositional fans in the Wenchuan earthquake zone. Journal of Hydrology, 577: 123932. [2] Zhou W*, Tang C, Van Asch T W J, Chang M, 2016. A rapid method to identify the potential of debris flow development induced by rainfall in the catchments of the Wenchuan earthquake area. Landslides, 13(5): 1243–1259.? [3] Zhou W*, Tang C, 2014. Rainfall thresholds for debris flow initiation in the Wenchuan earthquake-stricken area, southwestern China. Landslides, 11 (5): 877–887.? [4] Zhou W*, Tang C, Van Asch T W J, Zhou CH, 2014. Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area. Natural Hazards, 70 (2): 1417–1435. [5] Van Asch T W J*, Tang C, Alkema D, Zhu J, Zhou W, 2014. An integrated model to assess critical rainfall thresholds for run-out distances of debris flows. Natural Hazards, 70 (1): 299–311.? [6] Zhou W*, Deng JL, 2019. Predictive model of typhoon-induced debris flow based on Fisher discriminant analysis. Advances in Water Science, 30(3): 392–400. (In Chinese with English abstract) (EI) [7] Zhou W*, Tang C, 2013. Rainfall thresholds for debris flows occurrence in the Wenchuan earthquake area. Advances in Water Science, 24 (6): 786–793. (In Chinese with English abstract) (EI) [8] Zhou W*, Tang C, Zhou CH, 2012. Critical rainfall characteristics for rainfall-induced debris flows in Wenchuan earthquake affected areas. Advances in Water Science, 23 (5): 650–655. (In Chinese with English abstract) (EI) Books [1] Chen NS, Yang CL, Zhou W, Hu GS, Deng MF, Yang K, 2011.?Investigation technology for debris flows.?Beijing：Science Press. Advising Major Geological Engineering Civil Engineering Civil Engineering and Hydraulic Engineering Former Graduate Students Genyun Yang Jiaoyong Fang Jiulin Deng Hengqiang Chen Zhihua Wang Referee Service Journal of Hydrology Landslides CATENA International Journal of Remote Sensing Natural hazards Environmental Earth Sciences Arabian Journal of Geosciences Journal of Mountain Science Earth Sciences Research Journal ? Last Updated: 20 June?2020 荣誉称号 Academic Awards and Honors 工作经历 Work Experience2019.12- 2013.10至今， 成都理工大学环境与土木工程学院， 教授 ，地质灾害防治与地质环境保护国家重点实验室 2013.10- 2019.12至今， 成都理工大学环境与土木工程学院， 副教授 ，地质灾害防治与地质环境保护国家重点实验室 2011.07- 2013.10至今， 成都理工大学环境与土木工程学院， 讲师 ，地质灾害防治与地质环境保护国家重点实验室 个人新闻更多友情链接更多教育经历Education Background 2006.09-2011.06，中国科学院研究生院-中科院成都山地所，岩土工程，博士研究生 2002.09-2006.07，西南交通大学，土木工程，本科 发表论文Paper Publications[1]. 杨根云; 周伟; 方教勇.基于信息量模型和数据标准化的滑坡易发性评价,地球信息科学学报, 2018 ,20 (5):674-683 ( CSCD收录; )[2]. Zhou, Wei; Tang, Chuan; Van Asch, Th. W. J.; Chang, Ming.A rapid method to identify the potential of debris flow development induced by rainfall in the catchments of the Wenchuan earthquake area,LANDSLIDES, 2016 ,13 (5):1243-1259 ( SCI收录; EI收录; 一般期刊; )[3]. Zhou, Wei; Tang, Chuan; Van Asch, Th. W. J.; Zhou, Chunhua.Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area,NATURAL HAZARDS, 2014 ,70 (2):1417-1435 ( SCI收录; )[4]. van Asch, Th W. J.; Tang, C.; Alkema, D.; Zhu, J.; Zhou, W..An integrated model to assess critical rainfall thresholds for run-out distances of debris flows,NATURAL HAZARDS, 2014 ,70 (1):299-311 ( SCI收录; )[5]. Zhou, Wei; Tang, Chuan.Rainfall thresholds for debris flow initiation in the Wenchuan earthquake-stricken area, southwestern China,LANDSLIDES, 2014 ,11 (5):877-887 ( SCI收录; EI收录; )[6]. 黄勋; 唐川; 周伟.基于数值模拟的暴雨泥石流暴发频率计算模型,工程地质学报, 2014 ,22 (6):1271-1278 ( CSCD收录; )[7]. 周伟; 唐川.汶川震区暴雨泥石流发生的降雨阈值,水科学进展, 2013 ,24 (6):786-793 ( CSCD收录; EI收录; )[8]. 周伟; 唐川; 周春花.汶川震区暴雨泥石流激发雨量特征,水科学进展, 2012 ,23 (5):650-655 ( CSCD收录; EI收录; )1[1]. 基于信息量模型和数据标准化的滑坡易发性评价.. 2018. [2]. A rapid method to identify the potential of debris flow development induced by rainfall in the catchments of the Wenchuan earthquake area.. 2016. [3]. Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area.. 2014. [4]. An integrated model to assess critical rainfall thresholds for run-out distances of debris flows.. 2014. [5]. Rainfall thresholds for debris flow initiation in the Wenchuan earthquake-stricken area, southwestern China.. 2014. [6]. 基于数值模拟的暴雨泥石流暴发频率计算模型.. 2014. [7]. 汶川震区暴雨泥石流发生的降雨阈值.. 2013. [8]. 汶川震区暴雨泥石流激发雨量特征.. 2012. [1]. 杨根云; 周伟; 方教勇. 基于信息量模型和数据标准化的滑坡易发性评价.:, 2018 [2]. Zhou, Wei; Tang, Chuan; Van Asch, Th. W. J.; Chang, Ming. A rapid method to identify the potential of debris flow development induced by rainfall in the catchments of the Wenchuan earthquake area.:, 2016 [3]. Zhou, Wei; Tang, Chuan; Van Asch, Th. W. J.; Zhou, Chunhua. Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area.:, 2014 [4]. van Asch, Th W. J.; Tang, C.; Alkema, D.; Zhu, J.; Zhou, W.. An integrated model to assess critical rainfall thresholds for run-out distances of debris flows.:, 2014 [5]. Zhou, Wei; Tang, Chuan. Rainfall thresholds for debris flow initiation in the Wenchuan earthquake-stricken area, southwestern China.:, 2014 [6]. 黄勋; 唐川; 周伟. 基于数值模拟的暴雨泥石流暴发频率计算模型.:, 2014 [7]. 周伟; 唐川. 汶川震区暴雨泥石流发生的降雨阈值.:, 2013 [8]. 周伟; 唐川; 周春花. 汶川震区暴雨泥石流激发雨量特征.:, 2012 [1]. . 基于信息量模型和数据标准化的滑坡易发性评价. . , 2021.09.13 [2]. . A rapid method to identify the potential of debris flow development induced by rainfall in the catchments of the Wenchuan earthquake area. . , 2021.09.13 [3]. . Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area. . , 2021.09.13 [4]. . An integrated model to assess critical rainfall thresholds for run-out distances of debris flows. . , 2021.09.13 [5]. . Rainfall thresholds for debris flow initiation in the Wenchuan earthquake-stricken area, southwestern China. . , 2021.09.13 [6]. . 基于数值模拟的暴雨泥石流暴发频率计算模型. . , 2021.09.13 [7]. . 汶川震区暴雨泥石流发生的降雨阈值. . , 2021.09.13 [8]. . 汶川震区暴雨泥石流激发雨量特征. . , 2021.09.13 1[1] .. 基于信息量模型和数据标准化的滑坡易发性评价.,2021.09.13 [2] .. A rapid method to identify the potential of debris flow development induced by rainfall in the catchments of the Wenchuan earthquake area.,2021.09.13 [3] .. Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area.,2021.09.13 [4] .. An integrated model to assess critical rainfall thresholds for run-out distances of debris flows.,2021.09.13 [5] .. Rainfall thresholds for debris flow initiation in the Wenchuan earthquake-stricken area, southwestern China.,2021.09.13 [6] .. 基于数值模拟的暴雨泥石流暴发频率计算模型.,2021.09.13 [7] .. 汶川震区暴雨泥石流发生的降雨阈值.,2021.09.13 [8] .. 汶川震区暴雨泥石流激发雨量特征.,2021.09.13 [1]. 基于信息量模型和数据标准化的滑坡易发性评价.:2021.09 - 2021.09 [2]. A rapid method to identify the potential of debris flow development induced by rainfall in the catchments of the Wenchuan earthquake area.:2021.09 - 2021.09 [3]. Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area.:2021.09 - 2021.09 [4]. An integrated model to assess critical rainfall thresholds for run-out distances of debris flows.:2021.09 - 2021.09 [5]. 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ZL201310690085.6, 2015.09.30 [4]. 唐川;常鸣,朱静,李为乐,周伟,刘清华,马国超. 一种震后泥石流沟敏感性判别方法及其应用. 发明专利. ZL201310375642.5, 2015.10.21 1[1] .. 泥石流堆积扇平面网格化方法与危险性度量方法.,2016.06.08 [2] .. 一种强震区泥石流隐患点快速识别方法.,2016.04.06 [3] .. 泥石流淤积泛滥范围边界划定方法及危险区划方法.,2015.09.30 [4] .. 一种震后泥石流沟敏感性判别方法及其应用.,2015.10.21 [1]. 泥石流堆积扇平面网格化方法与危险性度量方法.:2021.09 - 2021.09 [2]. 一种强震区泥石流隐患点快速识别方法.:2021.09 - 2021.09 [3]. 泥石流淤积泛滥范围边界划定方法及危险区划方法.:2021.09 - 2021.09 [4]. 一种震后泥石流沟敏感性判别方法及其应用.:2021.09 - 2021.09 软件著作权Software Copyrights11科研项目Research Projects11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