师资队伍

教师名录

邢爱国

土木工程系

办公电话:13917403978
传真:86-21-34206344
电子邮件:xingaiguo@sjtu.edu.cn
通讯地址:上海市东川路800号上海交通大学船舶海洋与建筑工程学院木兰船建大楼B516室

研究员、博士生导师。2001年6月西南交通大学道路与铁道工程专业博士毕业。长期致力于岩土工程防灾减灾方面的研究工作。近年来负责国家重点研发计划项目课题1项、国家自然科学基金项目3项、国家科技支撑计划项目专题1项、国土资源大调查专题7项、其它科研项目20项作为骨干人员参与国家基金重点项目2项、国家杰出青年科学基金1项。发表国内外学术论文80余篇其中SCI收录25篇参编学术专著或教材6部。

滑坡与工程边坡、环境岩土工程、海底滑坡
欢迎优秀应届本科生直博优秀硕士生通过申请入学制攻读博士学位。

国际滑坡协会(ICL) 理事

国际地质灾害减轻协会(ICGdR) 理事

中国地质学会地质灾害研究分会 委员

国际岩石力学学会 会员

中国岩石力学与工程学会滑坡与工程边坡分会 常务理事

中国岩石力学与工程学会海洋工程地质灾害防控分会 常务理事

中国岩石力学与工程学会环境岩土工程分会 理事

中国岩石力学与工程学会红层工程分会 理事

中国地震学会地震灾害链专业委员会 委员;

SCI期刊Landslides 编委

Geoenvironmental disasters 副主编

中文核心期刊《防灾减灾工程学报》 编委。

[1] 2020.01-2023.12 国家自然科学基金项目《 基于多源数据协同的崩滑-碎屑流远程动力致灾机理分析与潜在隐患点风险评价》(41977215)项目负责

[2] 2018.12-2021.12 国家重点研发计划课题《岩溶山区特大滑坡高位远程动力致灾机理》(2018YFC1504804) 课题负责

[3] 2016.01-2020.12 国家自然科学基金重点项目《川藏铁路高山峡谷区高速远程滑坡自激振动悬浮减 阻、流变转化停积就位及阻滞耗能复合防控机   理》(41530639) 第二主持单位负责人

[4] 2013.01-2016.12 国家杰出青年科学基金项目《地质灾害预测评价及防治处理》(41225011)子课题《高速远程滑坡-碎屑流前锋冲击气浪模拟研究》课题负责
[5] 2013.01-2016.12 国家自然科学基金项目《地震触发高速远程滑坡-碎屑流全程动力学机理研究》(41272382) 项目负责
[6] 2014.01-2017.12 国家自然科学基金项目《降雨型高速远程滑体失稳机理与破坏过程研究》(41372332)子课题《降雨型高速远程滑体失稳机理与破坏过程离心试验研究》 子课题负责
[7] 2007.01-2009.12 国家自然科学基金项目《高速远程滑坡干碎屑流动力学机理研究》(40602035) 项目负责

[8] 2007.01-2009.12 十一五国家科技支撑计划重点项目《特大型滑坡早期识别及空间预测研究》(2006BAC04B02) 骨干研究人员(排名第四)
[9] 2007.01-2008.12 国土资源大调查计划项目《喜马拉雅山地区重大地质灾害调查与动态监测》(121201064070)分课题《西藏易贡高速远程滑坡飞行空气动力学效应研究》 课题负责
[10] 2010.01-2014.12 国土资源大调查计划项目《复杂山体特大滑坡形成机理与大型物理模拟试验》(1212011014032)分课题《地震触发高速远程滑坡气垫效应风洞试验研究》 课题负责
[11] 1999.01-2001.12 国家自然科学基金项目"大型高速岩质滑坡全程流体动力学机制的研究" 主研

[24] Chang WB, Xing AG*, Wang P, Zhuang Y, Jin KP, He JY, Chai SF (2021) Analysis of Dangchuan 5# landslide on January 27, 2021, in Yongjing County, 

       Gansu Province, China. Landslides (2021)18:3615-3628 (IF: 6.578)

[23] Gardezi H, Bilal M, Cheng QG, Xing AG*, Zhuang Y, Masood T(2021) A comparative analysis of attabad landslide on January 4, 2010, using two numerical          models. Natural Hazards 107:519-538 (IF: 3.102)

[22] Zhuang Y, Xing AG* (2021) History must not repeat itself-urban geological safety assessment is essential. Natural Hazards 

        https://doi.org/10.1007/s11069-02 1-05111-y (IF: 3.102)

[21] Zhang MZ, Zhou B, Cheng QG, Shen LK, Xing AG*, Zhuang Y (2021) Investigation of the triggering mechanism and runout characteristics of an earthflow

        in Zhimei village, Chengduo, Qinghai, China. Natural Hazards 109: 903-929 (IF: 3.102)

[20] Chang WB, Wang P, Xing AG, Wang HJ, Yu YF, Li XD (2021) Failure mode and dynamic response of loess slopes with tectonic joints under seismic action.          Environmental Earth Sciences 80:531

[19] Bilal M, Xing AG*, Zhuang Y, Zhang YB, Jin KP, Zhu YQ (2021) Coupled 3D numerical model for a landslide-induced impulse water wave: A case study 

        of the Fuquan landslide. Engineering Geology 290: 106209 (IF : 6.755)

[18] Zhuang Y, Xing AG*, Leng YY, Bilal M, Zhang YB, Jin KP, He JY (2021) Investigation of Characteristics of Long Runout Landslides Based on the 

       Multi-source Data Collaboration: A Case Study of the Shuicheng Basalt Landslide in Guizhou, China. Rock Mechanics and Rock Engineering 54(8): 

       3783-3798 (IF: 6.730)

[17] Luo H, Xing AG*, Jin KP, Xu SM, Zhuang Y (2021) Discrete Element Modeling of the Nayong Rock Avalanche, Guizhou, China Constrained by Dynamic 

       Parameters from Seismic Signal Inversion. Rock Mechanics and Rock Engineering, 54(4): 1629-1645 (IF: 6.730)

[16] Zhang YB, Xing AG*, Jin KP, Zhuang Y, Bilal M, Xu SM, Zhu YQ (2020) Investigation and dynamic analyses of rockslide-induced debris avalanche in 

        Shuicheng, Guizhou, China. Landslides 17: 2189-2203 (IF: 6.578)

[15] Zhuang Y, Yin YP, Xing AG, Jin KP (2020) Combined numerical investigation of the Yigong rock slide-debris avalanche and subsequent dam-break flood 

        propagation in Tibet, China. Landslides 17: 2217-2229 (IF: 6.578)

[14] Gnyawali KR, Xing AG*, Zhuang Y (2020) Dynamic analysis of the multi-staged ice–rock debris avalanche in the Langtang valley triggered by the 2015 

        Gorkha earthquake, Nepal. Engineering Geology 265: 105440 (IF : 6.755)

[13] Zhuang Y, Xing AG, Cheng QG, Li DS, Zhao C, Xu C (2020) Characteristics and numerical modeling of a catastrophic loess flow slide triggered by the 

        2013 Minxian-Zhangxian earthquake in Yongguang village, Minxian, Gansu, China. Bulletin of Engineering Geology and Environment 79: 439-449 

        (IF: 4.298)

[12] Zhuang Y, Xu Q, Xing AG* (2019) Numerical investigation of the air blast generated by the Wenjia valley rock avalanche in Mianzhu, Sichuan, China. 

        Landslides16: 2499-2508 (IF: 6.578)

[11] Zhu YQ, Xu SM, Zhuang Y, Dai XJ, Lv G, Xing AG* (2019) Characteristics and runout behaviour of the disastrous 28 August 2017 rock avalanche in 

        Nayong, Guizhou, China. Engineering Geology 259: 105154 (IF : 6.755)

[10] Jin KP, Yao LK, Cheng QG, Xing AG* (2019) Seismic landslides hazard zoning based on the modified Newmark model: a case study from the Lushan 

        earthquake, China. Natural Hazards 99: 493-509 (IF: 3.102)

[9] Li B, Xing AG*, Xu C (2017) Simulation of a long-runout rock avalanche triggered by the Lushan earthquake in the Tangjia Valley, Tianquan, Sichuan, 

     China. Engineering Geology 218: 107-116 (IF : 6.755)

[8] Yin YP, Xing AG*, Wang GH, Feng Z, Li B, Jiang Y (2017)Experimental and numerical investigations of a catastrophic long-runout landslide in Zhenxiong, 

      Yunnan, southwestern China. Landslides 14: 649-659 (IF: 6.578)

[7] Xing AG*, Yuan XY, Xu Q, Zhao QH, Huang HQ, Cheng QG (2017) Characteristics and numerical runout modelling of a catastrophic rock avalanche 

     triggered by the Wenchuan earthquake in the Wenjia valley, Mianzhu, Sichuan, China. Landslides 14: 83-98 (IF: 6.578)

[6] Xing AG*, Xu Q, Zhu YQ, Jiang Y (2016) The August 27, 2014, rock avalanche and related impulse water waves in Fuquan, Guizhou, China. Landslides 13: 

     411-422, 2016 (IF : 6.578)

[5] Xing AG*, Wang GH, Yin YP, Tang C, Xu ZM (2016) Investigation and dynamic analysis of a catastrophic rock avalanche of September 23,1991, Zhaotong,          Yunnan, China. Landslides13:1035-1047 (IF : 6.578)

[4] Xing AG*, Wang GH, Li B, Jiang Y, Feng Z, Kamai T (2015) Long runout mechanism and landsliding behaviour of a large catastrophic landslide triggered by        a heavy rainfall in Guanling, Guizhou, China. Canadian Geotechnical Journal 52: 971-981 (IF: 3.725)

[3] Xing AG*, Xu Q, Gan JJ (2015) On characteristics and dynamic analysis of the Niumian valley rock avalanche triggered by the 2008 Wenchuan earthquake, 

     Sichuan, China. Environmental Earth Sciences 73: 3387-3401(IF: 2.784)

[2] Xing AG*, Wang GH, Yin YP, Jiang Y, Wang GZ, Yang SY, Dai DR, Zhu YQ, Dai JA (2014) Dynamic analysis and field investigation of a fluidized landslide 

     in Guanling, Guizhou, China. Engineering Geology 181: 1-14 (IF : 6.755)

[1] Yin YP, Xing AG (2012) Aerodynamic modeling of the Yigong gigantic rock slide-debris avalanche, Tibet, China. Bulletin of Engineering Geology and 

     Environment 71(1): 149-160 (IF: 4.298)


材料力学 本科生
土木工程安全与风险分析 本科生
防灾工程学导论 硕士生
防灾减灾信息系统与决策系统 研究生

滑坡工程学 研究生

[1] 《重大滑坡减灾防灾关键支撑技术》2011年获得国家科学技术进步奖二等奖单位排名:6个人排名:10
[2] 《汶川地震地质灾害综合调查调查与减灾关键技术研究》2013/2014先后获得国土资源科学技术奖一等奖/中国地质调查局地质调查成果奖一等奖/中

       国地质学会十大科技进展单位排名:10个人排名:10

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