个人简介

ylzzcom永利总站线路检测“百人计划”副教授、博士生导师。德国波鸿大学博士。主要从事盾构隧道土-结构相互作用及大数据机器学习在土木工程中的应用等方面的研究，主持/参与国家级、省部级科研项目10余项，发表高水平学术论文30余篇，出版高等学校土木工程专业”十四五“系列教材1部、专著/译著3部。获ylzzcom永利总站线路检测本科教育教学成果二等奖、ylzzcom永利总站线路检测青年教师教学竞赛二等奖，指导学生参加全国BIM竞赛获特等奖、一等奖等奖项10余项。

• 欢迎对隧道工程、数值模拟、参数分析、大数据机器学习等感兴趣的同学报考硕士/申请博士研究生。
• 真诚邀请博士后研究员加盟中大土木，开展合作研究。

《基于BIM的盾构隧道虚拟仿真实验》

• 国家虚拟仿真实验教学课程共享平台：基于BIM的盾构隧道虚拟仿真实验 (ilab-x.com)
• ylzzcom永利总站线路检测虚拟仿真实验教学平台：https://xnfz.sysu.edu.cn/vlab/jyBIM.html

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, Prof. Guenther Meschke. 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，ylzzcom永利总站线路检测，ylzzcom永利总站线路检测，助理教授、副教授
• 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
• 土–结构相互作用
• BIM、大数据机器学习在土木工程中的应用

学术兼职

• 世界交通运输大会水下隧道设计与施工技术委员会，委员
• 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
• 广东省岩土力学与工程学会青年工作委员会,  委员
• 广东省土木建筑学会地下工程专业委员会，委员
• 交通岩土工程学术委员会，委员
• 中国城市地下空间学会,  会员
• 期刊编委：Frontiers in Built Environment
• 专刊编委：Buildings
• 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

1. 国家自然科学基金青年项目, 考虑壁后注浆压力非均匀演化的软土盾构隧道管片错台机制研究，2023.01-2025.12，主持
2. 科技部国家重点研发计划“交通基础设施”重点专项“海底隧道建造与韧性增强关键技术”项目, 2021.12–2024.12，参与单位负责人
3. 广东省自然科学基金青年提升项目，壁后注浆流态演化作用下盾构隧道上浮机制及控制方法研究，2024.01-2026.12，主持
4. 广东省基础与应用基础研究基金联合基金青年项目，基于机器学习的盾构隧道不良地质分析及超前预报，2020.01–2022.12，主持
5. 岩土力学与工程国家重点实验室开放课题，高水压大直径盾构隧道管片上浮机理及安全评价研究，2022.01-2023.12，主持
6. 广西防灾减灾与工程安全重点实验室开放课题, 基于随机场理论的库区非饱和土边坡失稳机理研究, 2021.01–2022.12，主持
7. ylzzcom永利总站线路检测“百人计划”，基本启动项目, 盾构隧道多尺度数值仿真, 2019.09-2021.12，主持
8. 国家自然科学基金面上项目, 地层错动变形下承插式管道的损伤演化机制及韧性提升技术研究, 2023.01–2026.12，参与
9. 国家自然科学基金面上项目, 动-静加载下加锚裂隙岩体能量演化与止裂吸能机理研究, 2022.01–2025.12，参与
10. 国家自然科学基金面上项目, 考虑位移的柔性管道土压力计算理论及管土相互作用研究, 2021.01–2024.12，参与
11. 广州市重点研发计划揭榜挂帅项目, 复杂环境下的轨道交通地下工程成套装备研制及应用，参与
12. 中国工程院, 城市地下设施安全管控战略研究, 2019.12–2020.12，参与
13. 德国联合基金会(DFG), Collaborative Research Center SFB 837: Interaction Modeling in Mechanized Tunneling

• Subproject – C2: System and Parameter Identification Methods for Ground Models in Mechanized Tunneling, 2018.07–2020.06, 参与
• Subproject – A5: Adaptive Constitutive Modeling of Soil with Special Consideration of the Destructuration, 2014.07–2018.06, 参与

教改项目

1. 研究生教育创新计划项目--学位与研究生教育改革研究，2024
2. 本科"四新"教学改革研究与实践，2024
3. 基于BIM的盾构隧道虚拟仿真实验，2023
4. 《土木、 水利与海洋工程施工》 教材建设，2023
5. 建筑信息模型与工程仿真（含实验）课程思政示范课，2022
6. 土木、水利与海洋工程智能建造教研室，团队建设类，2021
7. ylzzcom永利总站线路检测河南研究院基础设施创新中心科产教融合实践教学基地，实践实验类，省部级，2021

其它项目

1. 中铁十六局集团有限公司澳门代表处, 澳门轻轨延伸横琴线项目安全评估服务项目
2. 中海福陆重工有限公司, 流花11-1油田群项目
3. 广州市交通设计研究院有限公司，公路工程全过程BIM技术应用标准体系及快速建模方法研究
4. 中铁建华南建设有限公司，广花城际岩溶区隧道全寿命周期智慧管控关键技术研究
5. 广东长正建设有限公司，城区复杂环境下硬岩隧道微振爆破施工稳定性分析

获奖情况

• 2024年ylzzcom永利总站线路检测一流本科课程《建筑信息模型与工程仿真（含实验）》
• 2023年度Tunnelling and Underground Space Technology期刊Top Reviewer Award
• 2022年度Computers and Geotechnics期刊Top Reviewer Award
• 2023年ylzzcom永利总站线路检测第十一届校级本科教育教学成果奖，二等奖
• 2023年15th Innovation Competition in Construction Engineering and Management (ICCEM), Participation Award（指导教师）
• 2022年ylzzcom永利总站线路检测锦粤达奖教金
• 2022 年ylzzcom永利总站线路检测第三届青年教师教学竞赛二等奖
• 2022 年第二届全国大学生工业化建筑与智慧建造竞赛：二等奖2项，三等奖2项（指导教师）
• 2022 年高校BIM毕业设计大赛：特等奖1项，优胜奖1项，优秀指导教师奖
• 2021 年首届全国大学生工业化建筑与智慧建造竞赛：一等奖1项，二等奖3项，优秀组织奖1项（指导教师）
• 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

学术指导

• 2024，硕士毕业论文：陈乐，有压管线渗漏影响下盾构掘进诱发地层变形机理研究
• 2024，硕士毕业论文：何昊燊，考虑壁后注浆压力非均匀演化的盾构隧道变形机制研究
• 2022，硕士毕业论文：罗毛毛，基于机器学习的盾构隧道不良地质识别方法研究

• 2024，本科毕业论文：李建睿，滨海软土地层盾构隧道端头加固数值模拟研究
• 2024，本科毕业论文：黎昊文，基于图像识别的颗粒材料级配确定方法研究
• 2023，本科毕业论文：杨嘉豪，基于随机场的盾构掘进数值建模与系统响应研究
• 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

• 2024.08 大直径盾构隧道壁后注浆压力非均匀演化规律研究. 2024年度粤港澳大湾区岩土工程青年学者论坛. 深圳
• 2023.12 Numerical investigation of end reinforcement technology for super-large diameter shield tunnels and online prediction using machine learning. International Symposium on Innovations in Geotechnical Engineering towards Sustainability (IGES2023). Hong Kong, China
• 2023.04 基于多目标优化的深基坑变形实时预测. 第五届全国青年工程风险分析和控制研讨会，重庆
• 2022.06 Study on Polymer Damping Technology of Mountain Tunnels in Strong Earthquake-Prone Areas. EURO:TUN 2022，5th International Conference on Computational Methods and Information Models in Tunneling, Bochum, Germany
• 2021.10 A hybrid model for mechanized tunnel excavation (Invited lecture). Inverse problems workshop - Professor Tom Schanz memory workshop, Hungarian Academy of Sciences, Budapest.
• 2021.10 基于机器学习的盾构隧道不良地质预警. 第三届隧道及地下工程检测与监测国际研讨会邀请报告，长沙
• 2021.05 隧道数值仿真混合模型与参数优化. 第二届土木工程计算与仿真技术会议，北京
• 2020.11 参数分析和机器学习方法在盾构隧道中的应用. 2020中国隧道与地下工程大会，深圳
• 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 for Modeling and Simulation in Mechanized Tunneling, Sofia, Bulgaria
• 2017.09 Introduction to sub-systems in mechanized tunneling: Importance and difficulties. Workshop for Modeling and Simulation in Mechanized Tunneling, Sofia, Bulgaria
• 2017.04 Influencing factors affecting the numerical simulation of the mechanized tunnel excavation using FEM and FDM techniques. EURO:TUN 2017, Innsbruck, Austria
• 2016.06 Numerical investigation of mechanized tunnel excavation: Consolidation and infiltration analyses. Geo5 Workshop, Berlin, Germany
• 2016.05 Numerical investigation of the tunneling in saturated soil in construction and operation periods. 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

• 教材

1. 建筑信息模型（BIM）与应用，中国建筑工业出版社，ISBN 978-7-112-28254-8

• 专著

1. 机器学习方法与岩土工程应用，中国建筑工业出版社，ISBN 978-7-112-28841-0
2. Interaction Modeling in Mechanized Tunneling.  ISBN 978-3-031-24066-9 (eBook)

• 译著

1. 室内土工试验手册，第3卷：有效应力试验（第三版），中国建筑工业出版社，ISBN 978-7-112-28568-6

• 期刊论文

1. B. Guo, H. He, X. Meng, H. Ren, L. Zuo, J. Li, B. Dai, C. Zhao*. Numerical investigation of end reinforcement technology for super-large diameter shield tunnels and online prediction using machine learning, International Journal for Multiscale Computational Engineering.
2. C. Zhao, X. Zhang, A. Lavasan, C. Lin, Y. Chen (2024). Numerical Modeling of Soil and Structure Behavior for Tunneling in Different Types of Soil, Buildings, 14(11): 3380.
3. B. Wang, J. Li, C. Zhao*, J. Wang (2024). An improved analytical solution for solving the shield tunnel uplift problem, Journal of Rock Mechanics and Geotechnical Engineering. DOI: 10.1016/j.jrmge.2024.05.011
4. R. Wang, H. Dong, D. Shen, J. Li, P. Ni*, C. Zhao* (2023). Performance of an Asymmetric Pit-in-Pit Excavation Supported by Diaphragm Wall and Multi Uplift Piles System in Coastal Areas, Canadian Geotechnical Journal. DOI: 10.1139/cgj-2023-0319
5. C. Lin, J, Zheng, Y. Ye, F. Nadim, Z. Liu, C. Zhao, Y. Chen, Z. Ding (2023). Analytical solution for tunnelling-induced response of an overlying pipeline considering gap formation, Underground Space, DOI:10.1016/j.undsp.2023.07.006
6. R. Wang, P. Ni, C. Zhao*, C. Guo*, H. Ma, P. Dong, H. Liang, M. Tang (2023). Model Test and Numerical Simulation of a New Prefabricated Double-row piles Retaining System in Sandy Silt Ground, Underground Space, https://doi.org/10.1016/j.undsp.2023.05.004
7. C. Zhao, L. Chen, P. Ni, W. Xia, B. Wang (2023). A modified multi-objective optimization procedure based back analysis method for deep excavation, Journal of Rock Mechanics and Geotechnical Engineering, https://doi.org/10.1016/j.jrmge.2023.05.007
8. C. Zhao, E. Mahmoudi, M. Luo, M. Jiang, P. Lin (2023). Unfavorable geology recognition in front of shallow tunnel face using machine learning, Computers and Geotechnics, 157: 105313.
9. H. Ma, C. Zhao*, Y. Jiang, G. Zhou, Y. Wang (2023). Rotational resistance test of a new aluminum alloy penetrating (AAP) joint system, Advanced Steel Construction, 19(2): 121-129.
10. R. Wang, S. Liu, L. Xu, C. Zhao*, P. Ni, W. Zheng (2022). Performance of a 56 m Deep Circular Excavation Supported by Diaphragm and Cut-off Double-Wall System in Shanghai Soft Ground. Canadian Geotechnical Journal. DOI:10.1139/cgj-2022-0308
11. X. Zhang, T. Wang, C. Zhao, M. Jiang, M. Xu, G. Mei (2022), Supporting mechanism of rigid-flexible composition retaining structure in sand ground using discrete element method, Computers and Geotechnics 151, 104967.
12. C. Riedel, E. Mahmoudi, M. Trapp, A. Lamert, R. Hölter, C. Zhao, et al. (2022), A hybrid exploration approach for the prediction of geological changes ahead of mechanized tunnel excavation, Journal of Applied Geophysics, 104684.
13. C. Cheng, Y. Chen, C. Zhao, W. Zhao, J. Han, D. Qi, T. Li (2022), Theoretical analysis of the shield tunnel face stability in dry sandy strata, European Journal of Environmental and Civil Engineering, 1-21.
14. X. Zhang, M. Jiang, J. Yang, C. Zhao, G. Mei (2022), The macroscopic and mesoscopic study on strengthening mechanisms of the single pile with raft under pile-soil-raft combined interaction, Computers and Geotechnics 144, 104630.
15. Y. Chen, S. Wang, C. Guo, C. Lin, C. Zhao (2022), Analyses of non-aqueous reactive polymer insulation layer in high geothermal tunnel, Journal of Rock Mechanics and Geotechnical Engineering.
16. D. Liu, P. Lin, C. Zhao & J. Qiu (2021), Mapping horizontal displacement of soil nail walls using machine learning approaches, Acta Geotechnica, https://doi.org/10.1007/s11440-021-01345-z (SCI, JCR1区, 中科院1区, IF=5.856)
17. Z. Dai, C. Zhao, C. Guo & P. Lin (2021), System Reliability Analysis of Soil Nail Walls against Facing Failures, International Journal of Geomechanics 21(9): 04021171 (SCI, JCR2区, 中科院2区)
18. E. Mahmoudi, C. Schmüdderich, R. Hölter*, C. Zhao*, T. Wichtmann & M. König (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, IF=6.756)
19. C. Zhao*, C. Schmüdderich, T. Barciaga, L. Röchter (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)
20. C. Zhao, R. Hölter, M. König & A.A. Lavasan (2019), A hybrid model for estimation of ground movements due 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, IF=11.8)
21. 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) 
22. 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)
23. A.A. Lavasan, C. Zhao & T. Schanz (2018), Adaptive constitutive soil modeling concept in mechanized tunneling, International Journal of Geomechanics 18(9): 04018114. https://doi.org/10.1061/(ASCE)GM.1943-5622.0001219 (SCI, JCR2区, 中科院2区)
24. C. Zhao, A.A. Lavasan, R. Hölter & 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)
25. N. Müthing, C. Zhao, R. Hölter, & 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)
26. 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1区, IF=5.856)
27. R. Hölter, C. Zhao, E. Mahmoudi, A.A. Lavasan, M. Datcheva, M. König & 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 (SCI, JCR2区）
28. C. Zhao, A.A. Lavasan, T. Barciaga, C. Kämper, 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, IF=5.915)
29. C. Kämper, 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.201500064 (in German) (SCI, JCR4区, 中科院4区)
30. 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)
31. C. Guo, J. Ye, C. Zhao* & F. Wang (2020), Mechanical and deformation characteristics of composite assembled supporting structure , Geotechnical Research 7(4): 230-243 （EI）
32. X. Li, C. Zhao, R. Hölter, 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/geosciences9020089
33. 林存刚，王忠杰，赵辰洋，陈瑜，梁禹，黄林冲，丁智 (2024), 考虑界面脱空和土体屈服的盾构下穿管线响应计算. 岩土工程学报, 46(10): 2129-2137.
34. 林存刚，王忠杰，郭成超，王复明，陈瑜，赵辰洋*，丁智 (2024)，基于双层 Winkler 地基的盾构穿越管线挠曲与脱空分析. 岩石力学与工程学报. DOI：10.13722/j.cnki.jrme.2023.0748
35. 丁得志，王锐松，倪芃芃，赵辰洋 (2023), 滨海地区地下连续墙+抗拔桩组合式坑中坑现场实测分析. 建筑结构，DOI: 10.19701/j.jzjg.23S1724
36. 赵辰洋，罗毛毛，邱静怡，倪芃芃，赵锋烽 (2022), 盾构隧道施工引起地层变形预测方法综述.隧道与地下工程灾害防治 4(3):31-46.
37. 蒋明杰，朱俊高，张小勇，梅国雄，赵辰洋 (2022), 缩尺效应对粗颗粒土静止侧压力系数影响规律的试验研究. 工程科学与技术, https://doi.org/10.15961/j.jsuese.202101107
38. 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.
39. 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.
40. 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.
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• 会议论文

1. C. Zhao*, H. He, C. Lin, Y. Chen, A. Lavasan (2024), Experimental investigation of tail void grouting pressure evolution for super-large diameter shield tunnels. Geo-Shanghai 2024, May 26-29, 2024, Shanghai, China.
2. B. Sun, C. Guo, C. Zhao* & A.A. Lavasan (2022), Study on Polymer Damping Technology of Mountain Tunnels in Strong Earthquake-Prone Areas. EURO:TUN 2022 - 5th International Conference on Computational Methods and Information Models in Tunneling, June 22-24, 2022, Bochum, Germany.
3. C. Zhao, Z. Zizka, B. Schoesser, M. Thewes & A.A. Lavasan (2022), Support pressure transfer at a slurry supported tunnel face due to time dependent decrease of soil permeability. Proceedings of the Tenth International Symposium on Geotechnical Aspects of Underground Construction in Soft Ground, IS-Cambridge 2022, Cambridge, United Kingdom, 27-29 June 2022 (EI)
4.  E. Mahmoudi, R. Hölter & 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.
5. 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)
6. R. Hölter, 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.
7. 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.
8. R. Hölter, 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.
9. 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)
10. C. Zhao, A.A. Lavasan, T. Barciaga, R. Hölter, 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. (EI)

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9. 管状弹簧伸缩封启侧开口取土装置及其取土方法. ZL201210269773.0
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11. 管状气囊封启侧开口取土器及其取土方法. ZL201210302390.9
12. 活动门封启侧开口取土装置及其取土方法. ZL201210383160.X
13. 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. ZL201310040756.4

• 软著

1. 基于BIM的盾构隧道虚拟仿真实验系统，2023SR1226773
2. Abaqus盾构隧道自动化建模平台, 2024R11L1230793

最后更新：2024-11-7