年廷凯 - 大连理工大学 - 土木工程学院

个人简介

教育经历 2001.32006.5 大连理工大学岩土工程博士 1995.91998.7 长春科技大学地质工程硕士 1991.91995.7 长春地质学院水文地质工程地质学士 1988.91991.7 庄河高中工作经历 2014.12至今大连理工大学土木水利国家级实验教学示范中心副主任 2014.12至今大连理工大学教授 2014.10至今大连理工大学学院党总支书记、副院长 2013.12013.3 西澳大学海洋基础系统中心（COFS）访问学者 2010.12011.1 普渡大学土木工程学院访问学者 2007.122014.12 大连理工大学副教授 1998.72007.12 大连理工大学助教、讲师

研究领域

岩土力学试验技术与大变形模拟方法海洋岩土灾害机理、风险预测及工程防护高原山地灾害(链)模拟、智能预测与应急技术极端环境岩土灾害过程的多尺度多场耦合问题

近期论文

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Nian T, Wu H, Takara K, et al. Numerical investigation on the evolution of landslide-induced river blocking using coupled DEM-CFD. Computers and Geotechnics, 2021, 134, 104101. Guo X, Nian T*, Wang F, et al. Landslides impact reduction effect by using honeycomb-hole submarine pipeline. Ocean Engineering, 2019, 187, 106155. Wu H, Nian T*, Chen GQ, et al. Laboratory-scale investigation of the 3-D geometry of landslide dams in a U-shaped valley. Engineering Geology, 2020, 265, 105428. Nian T, Zhang Y, Wu H, et al. Runout simulation of seismic landslides using discontinuous deformation analysis with state-dependent shear strength model. Canadian Geotechnical Journal, 2020, 57(8):1183-1196. Nian T, Guo X, Zheng D, et al. Susceptibility assessment of regional submarine landslides triggered by seismic actions. Applied Ocean Research, 2019, 93, 101964. Nian T, Song X, Zhao W, et al. Submarine slope failure due to overpressure fluid associated with gas hydrate dissociation. Environmental Geotechnics, 2022, 9(2):108-123. Nian T, Wu H, Li D, et al. Experimental investigation on the formation process of landslide dams and a criterion of river blockage. Landslides, 2020, 17: 2547-2562. Fan N, Nian T*, Guo X, et al. Piecewise strength model for three types of ultra-soft fine-grained soils. Soils and Foundations, 2020, 60(4):778-790. Guo X, Nian T*, Gu Z, et al. Evaluation methodology of laminar-turbulent flow state for fluidized material with special reference to submarine landslide. Journal of Waterway, Port, Coastal, and Ocean Engineering-ASCE, 2021, 147(1), 04020048. Guo X, Nian T*, Wang D, et al. Evaluation of undrained shear strength of surficial marine clays using ball penetration-based CFD modelling. Acta Geotechnica, 2022, 17(5):1627–1643.