梁腾,山东济宁人,博士,
浙江大学讲师,国家重大科技基础设施“超重力离心模拟与实验装置”边坡与高坝实验舱骨干。
个人经历
教育经历
2011.10-2015.10:University of Dundee,岩土工程,博士(导师:Prof. Jonathan Knappett & Prof. David Muir Wood & Prof.Glyn Bengough)
2010.09-2011.07:中南大学,岩土工程,免试直博生 (导师:李夕兵教授)
2006.09-2010.07:中南大学,采矿与岩土工程,学士
工作经历
2019.08- :浙江大学超重力研究中心 讲师
2018.10-2019.10:University of Dundee科学与工程学院 副研究员(兼职)
2017.10-2018.10:University of Dundee科学与工程学院 岩土工程研究员
2015.10-2017.10:University of Dundee科学与工程学院 博士后
研究方向
研究兴趣
●生态岩土工程
●极端气候和环境变化诱发的土质边坡灾变机理及生态相调控
●地基和结构的抗震设计
●城市固体垃圾填埋场自动化实时监测
●超重力离心模拟与实验
学术成果
主要从事生态与环境岩土工程和地震岩土工程方面的研究工作,博士论文获得英国 University of Dundee 土木工程最佳博士论文奖(Dr Angus A Fulton Postgraduate Prize),主持与参与国家自然科学基金、英国工程和自然科学研究委员会 (EPSRC) 基金、英国诺曼弗雷泽设计信托基金(Norman Fraser Design Trust)等科研项目9项,发表学术论文18篇,SCI收录11篇,其中包括岩工程领域国际Top期刊 Géotechnique 文章4篇 。担任 Landslides,Engineering Geology, Ecological Engineering,Catena,Bulletin of Engineering Geology and the Environment,International Journal of Physical Modelling in Geotechnics以及Environmental Technology等十余个国际期刊审稿人。
期刊论文
J9-Liang, T., Knappett, J.A., Bengough, A.G.& Leung. A.K. (2020).Modelling the seismic performance of root reinforced slopes using the finite element method.Géotechniquedoi:10.1680/ jgeot. 17. P.286.(SCI, IF 2019:3.559, JCR分区 Q1)
J8-Liang, T., Knappett, J. A., Leung, A., Carnaghan, A., Bengough, A. G., & Zhao, R. (2020). A critical evaluation of predictive models for rooted soil strength with application to predicting the seismic deformation of rooted slopes. Landslides, 17, 93–109. doi: 10.1007/s10346-019-01259-8(SCI, IF2019: 4.187, JCR分区Q1)
J7-Meijer, G.J., MuirWood, D., Bengough, A.G., Knappett, J.A.,Liang, T.(2019). Modelling root behaviour in shear and pull-out using analytical beam theory with coupled axial and lateral deformations. International Journal for Numerical and Analytical Methods in Geomechanics. doi: 10.1002/nag. 2880 (SCI, IF 2019:2.481, JCR分区Q2)
J6-Leung, A.K., Boldrin, D.,Liang, T., Wu, Z, Kamchoom, V., Bengough, A.G. (2018). Root age effects on soil infiltration rate during early plant establishment. Géotechnique 68(7). doi:10.1680/jgeot.17.t.037(SCI, IF 2019:3.559, JCR分区Q1)
J5-Liang, T., Knappett, J.A. (2017). Centrifuge modelling of the influence of slope height on the seismic performance of rooted slopes. Géotechnique 67(10): 855–869. doi: 10.1680/jgeot.16.P.072(SCI, IF 2019 :3.559, JCR分区 Q1)
J4-Liang, T., Knappett, J.A., Bengough, A.G., Ke, Y.X. (2017). Small scale modelling of plant root systems using 3-D printing, with applications to investigate the role of vegetation on earthquake-induced landslides. Landslides. 14(5): 1747–1765. doi:10.1007/s10346-017-0802-2(SCI, IF 2019:4.187, JCR分区Q1)
J3-Liang, T., Bengough, A.G., Knappett, J.A., MuirWood, D., Loades, K.W., Hallett, P.D., Boldrin, D., Leung, A.K., Meijer, G.J. (2017). Scaling of the reinforcement of soil slopes by living plants in a geotechnical centrifuge. Ecol. Eng. doi:10.1016/j.ecoleng.2017.06.067(SCI, IF 2019:3.406,JCR分区Q2)
J2-Liang, T., Knappett, J.A. (2017). Newmark sliding block model for predicting the seismic performance of vegetated slopes. Soil Dyn. Earthq. Eng 101, 27-40. doi:10.1016/j.soildyn. 2017.07.010(SCI, IF 2019:2.578, JCR分区 Q2)
J1-Liang, T., Knappett, J.A., Duckett, N. (2015). Modelling the seismic performance of rooted slopes from individual root-soil interaction to global slope behaviour. Géotechnique 65 (12), 995–1009. doi:10.1680/jgeot.14.P.207(SCI, IF 2019:3.559, JCR分区 Q1)
论文摘要
C9-Bengough, A.G., Boldrin, D., Hallett, P.D., Knappett, J.A.,Liang, T.,Leung, A.K, Loades, K.W., Meijer, G.J., MuirWood, D. and Nocoll, B.C. (2019) Effects of vegetation on slope stability-understanding mechanical and hydrological reinforcement at different scalesMUSLOC 2019-Multi-scale analysis of slopes under climate change. A cross disciplinary workshop, Barcelona, Spain.Abstract
C8-Meijer, G.J., MuirWood, D., Bengough, A.G., Knappett, J.A.,Liang, T.(2019).Root branching affects the mobilisation of root-reinforcement in direct shearIS-Glasgow 2019-7th International Symposium on Deformation Characteristics of Geomaterials, Glasgow, UK
C7-Liang, T.,Bengough, A.G., Knappett, J.A., MuirWood, D., Loades, K.W., Hallett, P.D., Meijer, G.J. (2018). Scaling of plant roots using juvenile live roots or 3D printed analogues.ICPMG2018-9th International Conference on Physical Modelling in Geotechnics, London, UK, 1, pp.361–366.(SCI)
C6-Zhang, X., Knappett, J.A., Leung, A.K,Liang, T.(2018). Physical modelling of soil-structure interaction of tree root systems under lateral loadsICPMG2018-9th International Conference on Physical Modelling in Geotechnics, London, UK,1, pp.481–487.(SCI)
C5-Liang, T.,Bengough, A.G., Knappett, J.A., MuirWood, D., (2016). On the role of vegetation in earthquake induced landslides.ICONHIC2016-1st International Conference on Natural Hazards & Infrastructure,Chania, Greece
C4-Liang, T., Bengough, A.G., Knappett, J.A., MuirWood, D., Loades, K.W., Hallett, P.D. (2016). Realistic scaling of plant root systems for centrifuge modelling of root-reinforced slopes.SBEE2016-4th International Conference on Soil Bio- and Eco-Engineering, Sydney, Australia.Abstract
C3-Bengough, A.G., Boldrin, D., Hallett, P.D., Knappett, J.A., Leung, A.K.,Liang, T., Loades, K.W., Meijer, G.J., MuirWood, D. (2016). Optimising vegetation species selection and management regime for slope stabilisation: Experiments from column, centrifuge and field slope scales. EGU General Assembly Conference Abstracts, Vienna, Austria. 20, pp.18021. Abstract
C2-Liang, T.& Knappett, J.A. (2015).Centrifuge modelling of vegetated slopes under earthquake loading.6ICEGE-6th International Conference on Earthquake Geotechnical Engineering, Christchurch, New Zealand
C1-Liang, T., Knappett, J.A. & Bengough, A.G. (2014). Scale modelling of plant root systems using 3-D printing.ICPMG2014-8th International Conference on Physical Modelling in Geotechnics, Perth, Australia, 1, pp.361–366.