个人简介 Personal Profile 陈宏信,男,1987年生,教育部青年长江学者,同济大学长聘副教授,博士生导师,在清华大学获得学士学位,在香港科技大学获得博士学位,现任环境岩土工程教育部工程研究中心副主任、同济大学地基基础工程研究所副所长,长期从事岩土工程领域的教学和科研工作。作为项目负责人主持国家自然科学基金项目3项、国家重点研发计划课题和二级课题各1项、上海市教委自然科学重大项目1项及其他省部级和重大工程课题10余项。2015年获香港工程师学会优秀博士论文奖、2017年入选上海市“晨光计划”、2018年入选中国科协“青年人才托举工程”、2022年入选上海市“青年科技启明星计划”。作为主要完成人获教育部科技进步一等奖1项(排名2,2020年)、上海市技术发明一等奖1项(排名5,2022年)、上海市科技进步一等奖1项(排名5,2019年)、上海市地质学会科技进步一等奖1项(排名3,2023年)。长期致力于固体废弃物填埋场环境灾害防控与资源化利用、污染场地长效管控与协同修复、能源地下结构长期服役性能评价与优化设计等方面的研究工作,对多孔介质多相流理论、多场耦合仿真方法、环境修复功能材料研发及与污染物相互作用、滨海地区能源桩热力响应机制具有深入的认识,取得了丰富创新成果,研究成果已被广泛应用于几十个重要工程,取得了良好的经济、社会和环境效益。在《Eng. Geo.》、《Can.Geotech. J.》、《Landslides》、《Comput. Geotech.》、《Geotext.Geomembranes》等岩土工程灾害防控领域的顶级期刊上发表SCI论文80余篇,被引用2200余次,单篇最高引用126次,H-index为31,主编英文专著1部,授权发明专利9项,登记软件著作权5项。兼任《NaturalHazards Review》《Journal of Intelligent Construction》副主编、国际岩土工程安全协会委员、国际土力学与岩土工程学会TC210(堤坝技术委员会)和TC215(环境岩土技术委员会)委员、中国地震学会岩土工程防震减灾专委会委员、中国岩石力学与工程学会露天开采与边坡工程专委会委员等学术职务。近年来,受邀在本领域国内外重要会议上作特邀报告10余次,促进了国际岩土工程理论和技术的发展和完善。 研究方向Research Directions 环境岩土工程,能源岩土工程,智慧岩土工程,固废安全处置,污染场地治理 2. 机电结构优化与控制 研究内容:在对机电结构进行分析和优化的基础上,运用控制理论进行结构参数的调整,使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容:以仿生结构为研究对象,运用连续体结构拓扑优化设计理论和方法,对多相仿生结构(机构)材料进行2. 机电结构优化与控制 研究内容:在对机电结构进行分析和优化的基础上,运用控制理论进行结构参数的调整,使结构性能满足设计要求。1. 仿生结构材料拓扑优化设计, 仿生机械设计 研究内容:以仿生结构为研究对象,运用连续体结构拓扑优化设计理论和方法,对多相仿生结构(机构)材料进行整体布局设计。 整体布局设计。 项目情况 [1] 国家自然科学基金委员会,面上项目,42277148,微胶囊改性灰渣地聚物隔离墙的损伤自愈机制与阻隔性能研究,2023-01至2026-12[2] 国家自然科学基金委员会,面上项目,42077250,复杂环境耦合作用下土-膨润土防污隔离墙长效阻隔机理与服役性能研究,2021-01至2024-12[3] 国家科学技术部,重点研发计划课题,2023YFC3707904,填埋场深层渗漏通道复合污染长效阻控技术与装备,2023-12至2027-11[4] 国家科学技术部,重点研发计划子课题,强化非水相污染物氧化的复合修复功能材料制备与应用工艺,2020-11至2024-10[5] 上海市教育委员会,自然科学重大项目,2023ZKZD25,滨海软土地区能源桩热力响应与长期服役性能,2023-01至2027-12[6] 上海市科学技术委员会,青年科技启明星计划,22QA1409700,污染场地新型自愈合防污隔离墙研发及长期阻隔性能研究,2022-06至2025-05[7] 中国科协,青年人才托举工程项目,尾矿溃坝流滑特性及与拦挡坝相互作用机理,2018-09至2020-12[8] 上海市教育委员会,晨光计划项目,17CG15,超细尾矿流变特性和流滑灾害机理研究,2018-01至2020-12[9] 上海市教育委员会,上海市高峰高原学科建设项目,NAPLs污染物在防渗墙中的运移规律及防渗墙优化设计,2017-07至2019-07[10] 国家自然科学基金委员会,青年项目,41602288,垃圾土的流态化本构模型与流滑机理,2017-01至2019-12[11] 同济大学,青年优秀人才培养行动计划项目,2016KJ027,城市固体废弃物堆埋场失稳流滑机制研究,2017-01至2018-12 主要学术论文 [1] Chen, H.X., Xue, Q.P., Feng, S.J., Zheng, Q.T., Lv, D.J. 2024. Durability of geopolymer cutoff wall backfill incorporating reactive MgO particles under dry-wet cycles. Cement and Concrete Composites, 146, 105406 (SCI、EI检索)[2] Feng, S.J., Li, A.Z., Chen, H.X.*, Zheng, Q.T., Zhao, Y., Shen, G.D., 2024. Numerical simulation of flowslide considering transient seepage flow and progressive state transition. Natural Hazards Review, 25(2), 04024006. (SCI、EI检索)[3] Chen, H.X., Feng, S.J., Zhu, Z.W., Gao, L., Chen, Z.L., Wang, S.R., 2023. One-dimensional self-weight consolidation of layered soil under variable load and semi-permeable boundary condition. Computers and Geotechnics, 159, 105431. (SCI、EI检索)[4] Chen, H.X., Xue, Q.P., Ma, Z.P., Gao, L., Feng, S.J., 2023. Experimental study on barrier performance and durability under dry-wet cycles of fly ash based geopolymer cutoff wall backfill. Construction and Building Materials, 368, 130415. (SCI、EI检索)[5] Gao, L., Zhang, L., Hong, Y., Chen, H.X.*, Feng, S.J., 2023. Flood hazards in urban environment. Georisk: Assessment and Management of Risk for Engineered Systems and Geohazards, 17:2, 241-261. (SCI检索)[6] Chen, Z.L., Feng, S.J., Chen, H.X.*, Peng, M.Q., Li, Y.C., Zhu, Z.W., 2023. Analytical solution for transport of degradable contaminant through vertical cutoff wall and aquifer. Environmental Geotechnics, 10(1), 44-56. (SCI、EI检索)[7] Wang, H.Y., Feng, S.J., Zheng, Q.T., Chen, H.X., Gao, M.W., 2024. Bimolecular reactive transport in a filled single fracture-matrix system considering the nonequilibrium sorption. Computers and Geotechnics, 165, 105939.[8] Fang, J.C., Feng, S.J., Zhao, Y., Kong, G.Q., Chen, H.X., 2023. Numerical investigations on effects of mechanical and geometrical characteristics on thermally induced group behavior of field-scale energy piles. Computers and Geotechnics, 162, 105705.[9] Feng, S.J., Zhang, X., Zheng, Q.T., Chen, H.X., Zhao, Y., 2023. Modeling the spreading and remediation efficiency of slow-release oxidants in a fractured and contaminated low-permeability stratum. Chemosphere, 139271. (SCI、EI检索)[10] Peng, M.Q., Feng, S.J., Chen, H.X., Chen, Z.L., 2023. The role of thermodiffusion in organic pollutant transport in landfill composite liner system. Computers and Geotechnics, 153, 105108. (SCI、EI检索)[11] Wu, S.J., Feng, S.J., Zheng, Q.T., Zhang, X.L., Chen, H.X., 2023. Stabilization behavior of the three-phase and multi-component system of landfilled waste under aeration: Numerical modeling. Computers and Geotechnics, 156, 105318. (SCI、EI检索)[12] Feng, S.J., Shi, J.L., Shen, Y., Chen, H.X., Chang, J.Y., Wang, H.T., 2023. Experimental investigation on the shear strength of GM/CCL composite liner interface due to monotonic loading. Environmental Geotechnics, 10(1), 19-31. (SCI、EI检索)[13] Feng, S.J., Wang, Y.Q., Chen, H.X.*, 2022. DEM simulation of geotextile-geomembrane interface direct shear test considering the interlocking and wearing processes. Computers and Geotechnics, 148, 104805. (SCI、EI检索)[14] Zhu, Z.W., Feng, S.J., Chen, H.X.*, Chen, Z.L., Ding, X.H., Peng, C.H., 2022. Approximate analytical model for transient transport and oxygen-limited biodegradation of vapor-phase petroleum hydrocarbon compound in soil. Chemosphere, 300, 134522. (SCI、EI检索)[15] Liu, J., Li, W.Y., Chen, H.X., Li, S.Q., Yang, L.H., Peng, K.M., Cai, C., Huang, X.F., 2022. Applications of functional nanoparticle-stabilized surfactant foam in petroleum-contaminated soil remediation. Journal of Hazardous Materials, 130267. (SCI、EI检索)[16] Zheng, Q.T., Feng, S.J., Wu, S.J., Zhang, X.L., Chen, H.X., 2022. Modeling of multifield coupling interactions in an aerobic landfill based on the finite volume method. Computers and Geotechnics, 146, 104704. (SCI、EI检索)[17] Shi, F.J., Feng, S.J., Zheng, Q.T., Zhang, X.L., Chen, H.X., 2022. Effect of polyanionic cellulose modification on properties and microstructure of calcium bentonite. Applied Clay Science, 228, 106633. (SCI、EI检索)[18] Chen, H., Feng, S.J., Zheng, Q.T., Chen, H.X., 2022. Enhanced delivery of amendments in fractured clay sites based on multi-point injection: An analytical study. Chemosphere, 134086. (SCI、EI检索)[19] Feng, S.J., Chen, H., Zheng, Q.T., Chen, H.X., 2022. Fractal analytical solution of gas diffusivity in heterogeneous porous media over the entire saturation range. International Journal of Heat and Mass Transfer, 188, 122652. (SCI、EI检索)[20] Peng, M., Ma, C.Y., Chen, H.X.*, Zhang, P., Zhang, L.M., Jiang, M.Z., Zhang, Q.Z., Shi, Z.M., 2021. Experimental study on breaching mechanisms of landslide dams composed of different materials under surge waves. Engineering Geology, 291, 106242. (SCI、EI检索)[21] Feng, S.J., Zhu, Z.W., Chen, H.X., Chen, Z.L., Ding, X.H., 2021. Two-dimensional analytical solution for subsurface volatile organic compounds vapor diffusion from a point source in layered unsaturated zone. Journal of Contaminant Hydrology, 243, 103916. (SCI、EI检索)[22] Gao, L., Zhang, L.M., Chen, H.X., Fei, K., Hong, Y., 2021. Topography and geology effects on travel distances of natural terrain landslides: Evidence from a large multi-temporal landslide inventory in Hong Kong. Engineering Geology, 292, 106266. (SCI、EI检索)[23] Peng, C.H., Feng, S.J., Chen, H.X., Ding, X.H., 2021. An analytical model for one-dimensional diffusion of degradable contaminant through a composite geomembrane cut-off wall. Journal of Contaminant Hydrology, 103845. (SCI、EI检索)[24] Peng, M.Q., Feng, S.J., Chen, H.X., Chen, Z.L., 2021. An analytical solution for organic pollutant diffusion in a triple-layer composite liner considering the coupling influence of thermal diffusion. Computers and Geotechnics, 137, 104283. (SCI、EI检索)[25] Peng, M.Q., Feng, S.J., Chen, H.X., Chen, Z.L., Xie, H.J., 2021, Analytical model for organic contaminant transport through GMB/CCL composite liner with finite thickness considering adsorption, diffusion and thermodiffusion. Waste Management, 120, 448-458. (SCI、EI检索)[26] Feng, S.J., Shi, J.L., Shen, Y., Chen, H.X., Chang, J.Y., 2021. Dynamic shear behavior of GMB/CCL interface under cyclic loading. Geotextiles and Geomembranes, 49(3), 657-668. (SCI、EI检索)[27] Chen, H.X., Wang, S.R., Chen, Z.L., Feng, S.J., 2020. Efficient method to model the consolidation of multilayered soil system with horizontal drainage pipes. International Journal of Geomechanics, 2020, 20(10), 06020027. (SCI、EI检索)[28] Feng, S.J., Wang, W.T., Chen, Z.L., Chen, H.X.*, 2020. Analytical solution to consolidation of accreting soil considering step load and horizontal drainage layers. Marine Georesources & Geotechnology, 39(8), 889-905. (SCI、EI检索)[29] Feng, S.J., Chen, J.N., Chen, H.X.*, Liu, X., Zhao, T., Zhou, A.N., 2020. Analysis of sand-woven geotextile interface shear behavior using DEM. Canadian Geotechnical Journal, 53, 433-447. (SCI、EI检索)[30] Feng, S.J., Zhu, Z.W., Chen, Z.L., Chen, H.X.*, 2020. Analytical model for multi-component landfill gas migration through four-layer landfill biocover with capillary barrier. International Journal of Geomechanics, 20(3), 04020001. (SCI、EI检索)[31] Qi, H.F., Chen, Z.L., Li, Y.C., Feng, S.J., Chen, H.X.*, 2020. Wave and current-induced dynamic response in a multilayered poroelastic seabed. Bulletin of Engineering Geology and the Environment, 79, 11-26. (SCI、EI检索)[32] Feng, S.J., Chang, J.Y., Chen, H.X., Shen, Y., Shi, J.L., 2020. Shear strength and failure mechanism of needle-punched geosynthetic clay liner. Geotextiles and Geomembranes, 48(6), 962-972. (SCI、EI检索)[33] Feng, S.J., Fu, W.D., Chen, H.X., Li, H.X., Xie, Y.L., Lv, S.F., Li, J., 2020. Field tests of micro screw anchor piles under different loading conditions at three soil sites. Bulletin of Engineering Geology and the Environment, 80, 127-144. (SCI、EI检索)[34] Feng, S.J., Zhu, Z.W., Chen, H.X., Chen, Z.L., 2020. Two-dimensional analytical solution for VOC vapor migration through layered soil laterally away from the edge of contaminant source. Journal of Contaminant Hydrology, 203, 103664. (SCI、EI检索)[35] Li, Y.C., Feng, S.J., Chen, H.X., Chen, Z.L., Zhang, D.M., Huang, H.W., 2020. Dynamic response of a stratified transversely isotropic half-space with a poroelastic interlayer due to a buried moving source. Applied Mathematical Modelling, 82, 45-71. (SCI、EI检索)[36] Peng, C.H., Feng, S.J., Zheng, Q.T., Ding, X.H., Chen, Z.L., Chen, H.X., 2020. A two-dimensional analytical solution for organic contaminant diffusion through a composite geomembrane cut-off wall and an aquifer. Computers and Geotechnics, 119, 103361. (SCI、EI检索)[37] Chen, H.X., Liu, X., Feng, S.J., Chen, J.N., Zhang, D.M., Zhou, A., 2019. Microscale investigation into mechanical behaviors of heat-bonded nonwoven geotextile using DEM. Geotextiles and Geomembranes, 47(3), 429-438. (SCI、EI检索)[38] Chen, H.X., Li, J., Feng, S.J., Gao, H.Y., Zhang, D.M., 2019. Simulation of interactions between debris flow and check dams on three-dimensional terrain. Engineering Geology. 251, 48-62. (SCI、EI检索)[39] Feng, S.J., Gao H.Y., Gao, L., Zhang, L.M., Chen, H.X.*, 2019. Numerical modeling of interactions between a flow slide and buildings considering the destruction process. Landslides, 16, 1903-1919. (SCI、EI检索)[40] Feng, S.J., Li, A.Z., Zheng, Q.T., Cao, B.Y., Chen, H.X.*, 2019. Numerical model of aerobic bioreactor landfill considering aerobic-anaerobic condition and bio-stable zone development. Environmental Science and Pollution Research, 26(15), 15229-15247. (SCI检索)[41] Feng, S.J., Peng, M.Q., Chen, H.X., Chen, Z.L., 2019. Fully transient analytical solution for degradable organic contaminant transport through GMB/GCL/AL composite liners. Geotextiles and Geomembranes, 47(3), 282-294. (SCI、EI检索)[42] Li, Y.C., Feng, S.J., Chen, H.X., Chen, Z.L., Zhang, D.M., 2019. Random vibration of train-track-ground system with a poroelastic interlayer in the subsoil. Soil Dynamics and Earthquake Engineering, 120, 1-11. (SCI、EI检索)[43] Feng, S.J., Li, Y.C., Chen, H.X., Chen, Z.L., 2019. Response of pavement and stratified ground due to vehicle loads considering rise of water table. International Journal of Pavement Engineering, 20(2), 191-203. (SCI、EI检索)[44] Lu, S.F., Xiong, J.H., Feng, S.J., Chen, H.X., Bai, Z.B., Fu, W.D., Lü, F., 2019. A finite-volume numerical model for bio-hydro-mechanical behaviors of municipal solid waste in landfills. Computers and Geotechnics, 109, 204-219. (SCI、EI检索)[45] Feng, S.J., Chang, J.Y., Chen, H.X., Zhang, D.M., 2019. Numerical analysis of earthquake-induced deformation of liner system of typical canyon landfill. Soil Dynamics and Earthquake Engineering, 116, 96-106. (SCI、EI检索)[46] Feng, S.J., Chen, Z.W., Chen, H.X.*, Zheng, Q.T., Liu, R., 2018. Slope stability of landfills considering leachate recirculation using vertical wells. Engineering Geology, 241, 76-85. (SCI、EI检索)[47] Shen, P., Zhang, L.M., Chen, H.X., Fan, R.L., 2018. EDDA 2.0: integrated simulation of debris flow initiation and dynamics considering two initiation mechanisms. Geoscientific Model Development, 11(7), 2841-2856. (SCI、EI检索)[48] Feng, S.J., Bai, Z.B., Chen, H.X., Cao, B.Y., Lu, S.F., Chen, Y.M., 2018. A dual-permeability hydro-biodegradation model for leachate recirculation and settlement in bioreactor landfills. Environmental Science and Pollution Research, 25(15), 14614-14625. (SCI检索)[49] Feng, S.J., Ai, S.G., Chen, H.X., 2018. Membrane effect of geosynthetic reinforcement subjected to localized sinkholes. Canadian Geotechnical Journal, 55, 1334-1348. (SCI、EI检索)[50] Feng, S.J., Chang, J.Y., Chen, H.X., 2018. Seismic analysis of landfill considering the effect of GM-GCL interface within liner. Soil Dynamics and Earthquake Engineering, 107, 152-163. (SCI、EI检索)[51] Feng, S.J., Liu, X., Chen, H.X., Zhao, T., 2018. Micro-mechanical analysis of geomembrane-sand interactions using DEM. Computers and Geotechnics, 94, 58-71. (SCI、EI检索)[52] Feng, S.J., Peng, M.Q., Chen, Z.L., Chen, H.X., 2018. Transient analytical solution for one-dimensional transport of organic contaminants through GM/GCL/SL composite liner. Science of the Total Environment, 479-492. (SCI、EI检索)[53] Chen, H.X., Zhang, L.M., Gao, L., Yuan, Q., Lu, T., Xiang, B., Zhuang, W.L., 2017. Simulation of interactions among multiple debris flows. Landslides, 14, 595-615. (SCI、EI检索)[54] Feng, S.J., Chen, Z.L., Chen, H.X., 2017. A systematic and efficient method for modeling acoustic response of multilayered media. Journal of Applied Physics, 122(224901). (SCI、EI检索)[55] Feng, S.J., Ai, S.G., Chen, H.X., Xie, H.J., 2017. An analytical method for predicting load acting on geosynthetic overlying voids. Geotextiles and Geomembranes, 45, 570-579. (SCI、EI检索)[56] Feng, S.J., Ai, S.G., Chen, H.X., 2017. Estimation of arching effect in geosynthetic-reinforced structures. Computers and Geotechnics, 87, 188-197. (SCI、EI检索)[57] Feng, S.J., Chen, Z.L., Chen, H.X., 2017. Effects of multilayered porous sediment on earthquake-induced hydrodynamic response in reservoir. Soil Dynamics and Earthquake Engineering, 94, 47-59. (SCI、EI检索)[58] Feng, S.J., Du, F.L., Chen, H.X., Mao, J.Z., 2017. Centrifuge modeling of preloading consolidation and dynamic compaction in treating dredged soil. Engineering Geology, 226, 161-171. (SCI、EI检索)[59] Feng, S.J., Lu, S.F., Chen, H.X., Fu, W.D., Lü, F., 2017. Three-dimensional modelling of coupled leachate and gas flow in bioreactor landfills. Computers and Geotechnics, 84, 138-151. (SCI、EI检索)[60] Feng, S.J., Zheng, Q.T., Chen, H.X., 2017. Unsaturated flow parameters of municipal solid waste. Waste Management, 63, 107-121. (SCI、EI检索)[61] Gao, L., Zhang, L.M., Chen, H.X., 2017. Two-dimensional simulation of debris flow impact pressures on buildings. Engineering Geology, 226, 236-244. (SCI、EI检索)[62] Shen, P., Zhang, L.M., Chen, H.X., Gao, L., 2017. Role of vegetation restoration in mitigating hillslope erosion and debris flows. Engineering Geology, 216, 122-133. (SCI、EI检索)[63] Feng, S.J., Li, Y.C., Chen, Z.L., Chen, H.X., 2017. Response of railway track coupled with a stratified ground consisting of saturated interlayer to high-speed moving train load. Soil Dynamics and Earthquake Engineering, 102, 25-40. (SCI、EI检索)[64] Feng, S.J., Cao, B.Y., Li, A.Z., Chen, H.X., Zheng, Q.T., 2017. CFD modeling of hydro-biochemical behavior of MSW subjected to leachate recirculation. Environmental Science and Pollution Research, 25, 5631-5642. (SCI检索)[65] Chen, H.X., Zhang, S., Peng, M., Zhang, L.M., 2016. A physically-based multi-hazard risk assessment platform for regional rainfall-induced slope failures and debris flows. Engineering Geology, 203, 15-29. (SCI、EI检索)[66] Feng, S.J., Chen, Z.L., Chen, H.X., 2016. Reflection and transmission of plane waves at an interface of water/multilayered porous sediment overlying solid substrate. Ocean Engineering, 126, 217-231. (SCI、EI检索)[67] Gao, L., Zhang, L.M., Chen, H.X., Shen, P., 2016. Simulating debris flow mobility in urban settings. Engineering Geology, 214, 67-78. (SCI、EI检索)[68] Feng, S.J., Li, Y.C., Chen, Z.L., Chen, H.X., 2016. Three-dimensional dynamic response of ground with a poroviscoelastic interlayer to a harmonic moving rectangular load. International Journal for Numerical and Analytical Methods in Geomechanics, 41(7), 1055-1076. (SCI、EI检索)[69] Feng, S.J., Gao, K.W., Chen, Y.X., Li, Y., Zhang, L.M., Chen, H.X., 2016. Geotechnical properties of municipal solid waste at Laogang Landfill, China. Waste Management, 63, 354-365. (SCI、EI检索)[70] Shi, Z.M., Xiong, X., Peng, M., Zhang, L.M., Xiong, Y.F., Chen, H.X., Zhu, Y., 2016. Risk assessment and mitigation for the Hongshiyan landslide dam triggered by the 2014 Ludian earthquake in Yunnan, China. Landslides, 14(1), 269-285. (SCI、EI检索)[71] Chen, H.X., Zhang, L.M., 2015. EDDA 1.0: integrated simulation of debris flow erosion, deposition and property changes. Geoscientific Model Development, 8, 829-844. (SCI、EI检索)[72] Chen, H.X., Zhang, L.M., Gao, L., Zhu, H., Zhang, S., 2015. Presenting regional shallow landslide movement on three-dimensional digital terrain. Engineering Geology, 195, 122-134. (SCI、EI检索)[73] Gao, L., Zhang, L.M., Chen, H.X., 2015. Likely scenarios of natural terrain shallow slope failures on Hong Kong Island under extreme storms. Natural Hazards Review, B4015001. (SCI、EI检索)[74] Chen, H.X., Zhang, L.M., 2014. 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Journal of Mountain Science, 10(2), 281-292. (SCI、EI检索)[79] Chen, H.X., Zhang, L.M., Chang, D.S., Zhang, S., 2012. Mechanisms and runout characteristics of rainfall-triggered debris flow in Xiaojiagou Ravine in Sichuan Province, China. Natural Hazards, 62, 1037-1057. (SCI、EI检索)[80] Zhang, S., Zhang, L.M., Peng, M., Zhang, L.L., Zhao, H.F., Chen, H.X., 2012. Assessment of risks of loose landslide deposits formed by the 2008 Wenchuan earthquake. Natural Hazards and Earth System Sciences, 12(5), 1381-1392. 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