赵辰洋

土木工程学院 助理教授



学科方向
地下空间工程



Email
zhaochy28@mail.sysu.edu.cn



个人简介中山大学土木工程学院助理教授、硕士生导师。德国波鸿大学岩土工程博士。近年来，主要从事隧道盾构数值模拟及工程问题参数分析方面的研究，在国际权威期刊《Computers and Geotechnics》、《Computer-Aided Civil and Infrastructure Engineering》、《International Journal for Numerical and Analytical Methods in Geomechanics》、《Tunnelling and Underground Space Technology》等上发表多篇学术论文，同时担任多个国际权威期刊的审稿人。
教育经历2013.09-2018.03，德国波鸿大学（Ruhr-University Bochum），岩土工程，博士。导师：Prof. Tom Schanz.?学位论文：A contribution to modeling of mechanized tunnel excavation
2010.09-2013.06，河海大学，岩土工程，硕士。导师：王保田教授。学位论文：高含水率疏浚淤泥固化试验研究
2006.09-2010.06，河海大学，土木工程，学士
工作经历2019.08-至今，中山大学，土木工程学院，助理教授
2018.04-2019.07，德国波鸿大学（Ruhr-University Bochum），土木与环境工程系，Postdoctoral Research Associate
2018.02-2018.03，美国麻省理工学院（MIT），土木与环境工程系，Visiting Scholar
研究方向隧道与地下空间工程
盾构隧道数值模拟
地下韧性结构理论体系
土–结构相互作用
结构安全与耐久性评价方法
参数分析和机器学习方法在岩土工程中的应用
高含水率淤泥土固化
学术兼职中国岩石力学与工程学会环境岩土工程分会青年工作委员会委员
世界交通运输大会水下隧道设计与施工技术委员会委员
期刊审稿人: Tunnelling and Underground Space Technology, International Journal for Numerical and Analytical Methods in Geomechanics,?International Journal of Civil Engineering, Computer-Aided Civil and Infrastructure Engineering, Computers and Geotechnics 等
科研项目广东省基础与应用基础研究基金联合基金青年项目，2020-2022，主持
中山大学“****”基本启动项目，2019-2021，主持
德国联合基金会(DFG)? Collaborative Research Center SFB 837: Interaction Modeling in Mechanized Tunneling
Subproject – A5:?Adaptive Constitutive Modeling of Soil with Special Consideration of the Destructuration, 2014-2018, 参与
Subproject – C2:?System and Parameter Identification Methods for Ground Models in Mechanized Tunneling, 2018-2020, 参与
获奖情况2017 Outstanding contribution in reviewing by Tunnelling and Underground Space Technology
2017 Scholarship of Wilhelm und Günter Esser Stiftung by RUB Research School
2016 Teaching Assistantship summer term 2016 by RUB Research School PLUS
2013 CSC公派博士研究生项目奖学金
学术指导2018 Project thesis: Sophie van den Brink & Matthias Müller, Numerical investigation of effectiveness of different repair methods for tunnel rehabilitation (in German)
学术报告2020.10 A pattern recognition approach to evaluate the uncertain soil stratum in front of the tunnel face. 7th Asian-Pacific Symposium on Structural Reliability and Its Applications (APSSRA2020), Tokyo, Japan
2018.10 A contribution to numerical modeling of mechanized tunnel excavation. 同济大学交通运输工程学院邀请讲座
2018.08 Adequate numerical simulation of tail void grouting for tunneling in saturated soil. China-Europe Conference on Geotechnical Engineering, Vienna, Austria
2017.09 Model validation and parameter identification based on online monitoring. Workshop forModeling and Simulation in Mechanized Tunneling, Sofia, Bulgaria
2017.09 Introduction to sub-systems in mechanized tunneling: Importance and difficulties. Workshopfor Modeling and Simulation in Mechanized Tunneling, Sofia, Bulgaria
2017.04 Influencing factors affecting the numerical simulation of the mechanized tunnel excavationusing FEM and FDM techniques. EURO:TUN 2017, Innsbruck, Austria
2016.06 Numerical investigation of mechanized tunnel excavation: Consolidation and infiltrationanalyses. Geo5 Workshop, Berlin, Germany
2016.05 Numerical investigation of the tunneling in saturated soil in construction and operationperiods. 4th Modern Trends in Geomechanics, Assisi, Italy
2015.04 Numerical investigation of tunneling in saturated soil: Consolidation analysis. Deutsch-Norwegischer Workshop, Bochum, Germany
论文著作 期刊论文
E. Mahmoudi, C. Schmüdderich, R. H?lter, C. Zhao*, T. Wichtmann & M. K?nig (2020), Stochastic field simulation of slope stability problems: improvement and reduction of computational effort, Computer Methods in Applied Mechanics and Engineering 369: 113167. https://doi.org/10.1016/j.cma.2020.113167 (SCI, JCR1区, 中科院1区)
C. Zhao*, C. Schmüdderich, T. Barciaga, L. R?chter (2019), Response of building to shallow tunnel excavation in different types of soil, Computers and Geotechnics 115: 103165. https://doi.org/10.1016/j.compgeo.2019.103165?(SCI, JCR1区, 中科院2区)
C. Zhao, R. H?lter, M. K?nig & A.A. Lavasan (2019), A hybrid model for estimation of ground movementsdue to mechanized tunnel excavation, Computer-Aided Civil and Infrastructure Engineering 1-16.?https://doi.org/10.1111/mice.12438 (SCI, JCR1区, 中科院1区)
C. Zhao, A.A. Lavasan, T. Barciaga & T. Schanz (2019), Mechanized tunneling induced ground movements and its dependency on the tunnel volume loss and soil properties, International Journal for Numerical and Analytical Methods in Geomechanics. https://doi.org/10.1002/nag.2890 (SCI, JCR2区, 中科院3区)?
C. Zhao, A.A. Lavasan & T. Schanz (2018), Application of submodeling technique in numerical modeling of mechanized tunnel excavation, International Journal of Civil Engineering. https://doi.org/10.1007/s40999-018-0318-8 (SCI, JCR3区)
A.A. Lavasan, C. Zhao & T. Schanz (2018), Adaptive constitutive soil modeling concept in mechanized tunneling, International Journal of Geomechanics 18(9): **. https://doi.org/10.1061/(ASCE)GM.1943-5622.** (SCI, JCR2区, 中科院3区)
C. Zhao, A.A. Lavasan, R. H?lter & T. Schanz (2018), Mechanized tunneling induced building settlements?and design of optimal monitoring strategies based on sensitivity field, Computers and Geotechnics 97: 246-260. https://doi.org/10.1016/j.compgeo.2018.01.007 (SCI, JCR1区, 中科院2区)
N. Müthing, C. Zhao, R. H?lter, & T. Schanz (2018), Settlement prediction for an embankment on soft clay, Computers and Geotechnics 93: 87-103. DOI:10.1016/j.compgeo.2017.06.002 (SCI, JCR1区, 中科院2区)
A.A. Lavasan, C. Zhao, T. Barciaga, A. Schaufler, H. Steeb & T. Schanz (2018), Numerical investigation of tunneling in saturated soil: the role of construction and operation periods, Acta Geotechnica 13(3): 671-691. https://doi.org/10.1007/s11440-017-0595-4 (SCI, JCR1区, 中科院2区)
C. Zhao, A.A. Lavasan, T. Barciaga, C. K?mper, P. Mark & T. Schanz (2017), Prediction of tunnel lining forces and deformations using analytical and numerical solutions, Tunnelling and Underground Space Technology 64: 164-176. https://doi.org/10.1016/j.tust.2017.01.015 (SCI, JCR1区, 中科院1区)
C. K?mper, T. Putke, C. Zhao, A.A. Lavasan, T. Barciaga, P. Mark, & T. Schanz (2016), Vergleichsrechnungen zu Modellierungsvarianten für Tunnel mit Tübbingauskleidung [Comparative analyses of modeling alternatives of tunnels with concrete lining segments], Bautechnik 93(7): 421-432. https://doi.org/10.1002/bate. (in German) (SCI, JCR4区, 中科院4区)
C. Zhao, A.A. Lavasan, T. Barciaga, V. Zarev, M. Datcheva & T. Schanz (2015), Model validation and calibration via back analysis for mechanized tunnel simulations - The Western Scheldt tunnel case, Computers and Geotechnics 69: 601-614. https://doi.org/10.1016/j.compgeo.2015.07.003 (SCI, JCR1区, 中科院2区)
X. Li, C. Zhao, R. H?lter, M. Datcheva & A.A. Lavasan (2019), Modelling of a large landslide problem under water level fluctuation - Model calibration and verification, Geosciences 9, 89: 1-23. https://doi:10.3390/geosciences**
R. H?lter, C. Zhao, E. Mahmoudi, A.A. Lavasan, M. Datcheva, M. K?nig & T. Schanz (2018), Optimal measurement design for parameter identification in mechanized tunneling, Underground Space 3: 34-44.https://doi.org/10.1016/j.undsp.2018.01.004
王保田, 宋为广, 赵辰洋 & 杜妍平(2014), 水泥含量测定法控制水泥搅拌桩施工质量研究, 长江科学院院报 31(7): 109-113.
赵辰洋 & 王保田(2013), 吸水树脂快速固化高含水率疏浚淤泥试验, 河海大学学报: 自然科学版 43(1):59-63.
俞海洲, 王保田 &? 赵辰洋(2013), 颗粒成分对黏性土收缩性能的影响, 科学技术与工程 13(9): 2591-2593.
游波, 王保田 & 赵辰洋(2012), 激光粒度仪在土工颗粒分析中的应用研究, 人民长江 43(24): 50-54.
会议论文
C. Zhao, A.A. Lavasan & T. Schanz (2018), Adequate numerical simulation of tail void grouting for tunneling in saturated soil, Proceedings of China-Europe Conference on Geotechnical Engineering. August 13–16, 2018, Vienna, Austria, 1230-1233. (EI)
C. Zhao, A.A. Lavasan & T. Schanz (2014), Sensitivity analysis of the model response in mechanized tunnelling simulation - A case study assessment, Proceedings of 4th International Conference on Engineering Optimization. September 8–11, 2014, Lisbon, Portugal, 491-496. (EI)
?E. Mahmoudi, R. H?lter & C. Zhao (2020), A pattern recognition approach to evaluate the uncertain soil stratum in front of the tunnel face. 7th Asian-Pacific Symposium on Structural Reliability and Its Applications (APSSRA2020). October 5–7, 2020, Tokyo, Japan, 351-355.
R. H?lter, C. Zhao, E. Mahmoudi, A.A. Lavasan & T. Schanz (2017), Optimal measurement setup for parameter identification in 3D-tunnelling cases, EURO:TUN 2017 - IV International Conference on Computational Methods in Tunneling and Subsurface Engineering. April 18–20, 2017, Innsbruck, Austria, 465-472.
R. Shah, C. Zhao, A.A. Lavasan, D. Peila, T. Schanz & A. Lucarelli (2017), Influencing factors affecting the numerical simulation of the mechanized tunnel excavation using FEM and FDM techniques, EURO:TUN 2017 - IV International Conference on Computational Methods in Tunneling and Subsurface Engineering. April 18–20, 2017, Innsbruck, Austria, 483-490.
R. H?lter, W. Lieske, N. Müthing, C. Schmüdderich, C. Zhao & T. Schanz (2016), Settlement prediction for an embankment on soft, structured clay using smeared soil-drain replacement technique and probabilistic analysis, Embankment and Footing Prediction Symposium. September 2016, Newcastle, Australia, 167-179.
C. Zhao, A.A. Lavasan, T. Barciaga, R. H?lter, M. Datcheva & T. Schanz (2014), Constitutive parameter adjustment for mechanized tunneling with reference to sub-system effects, Proceedings of 8th International Conference on Numerical Methods and Applications. August 20–24, 2014, Borovets, Bulgaria, 217-225.
发明专利
赵辰洋, 王保田, 李守德, 俞海洲, 郭帅杰, 黄辰杰 & 宋为广. 管状弹簧伸缩封启侧开口取土装置及其取土方法. ZL3.0
俞海洲, 王保田, 张文慧, 赵辰洋, 张永婷 & 张灿虹. 管式侧开闭口软土取土装置及其取土方法. ZL4.3
王保田, 赵辰洋, 张文慧, 俞海洲, 郭帅杰, 邱雪莲 & 杜妍平. 管状气囊封启侧开口取土器及其取土方法. ZL0.9
王保田, 赵辰洋 & 俞海洲. 活动门封启侧开口取土装置及其取土方法. ZL0.X
王保田, 张文慧, 俞海洲, 杜妍平 & 赵辰洋. 一种提高膨胀土边坡稳定性和控制膨胀土结构破坏的方法. ZL6.4
寄语学生欢迎对隧道工程、地下韧性结构、数值模拟、参数分析、大数据、淤泥土固化等感兴趣的同学报考中山大学硕士研究生。
真诚邀请博士后研究员、专职科研人员加盟中大土木，开展合作研究。
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最后更新：2020-10-3