1. 科技部中国⼀匈牙利科技合作委员会第十次届例会交流项目，基于试验测试和机器学习的低碳预制混凝土构件接头创新设计
2. 同济大学“中德合作2.0战略”支撑培育计划项目，中德隧道结构3D打印建造
3. 上海市科技发展基金会科普项目，“地震液化现象与发生机理”科普演示
4. 国家自然科学基金委员会, 考虑接头时变行为的盾构隧道衬砌结构性能演化机理
5. 国家重点研发计划项目课题：2023YFB3711604，纤维增强复合材料地下结构构件与关键连接技术研究
6. 奥地利教科研部（BMBWF），恩斯特马赫基金项目，Structural Behavior of Segmental Tunnel Linings Subjected to Grouting Pressure
7. 上海市科委，青年科技“启明星”人才计划，近接盾构隧道施工的结构混合分析方法与安全预警指标研究
8. 上海市科委，浦江人才计划项目，以主动维护为导向的盾构隧道结构性能时空演化机理
9. 奥地利科学基金（FWF），国际合作项目，Bridging the Gap by Means of Multiscale Structural Analyses
10. 科技部，国家重点研发计划“政府间国际科技创新合作”重点专项, “新奥法”隧道工程的集约化升级及城市高质量发展示范应用
11. 科技部，国家重点研发计划项目课题：2022YFB2302103，强震活动断裂作用下隧道结构精细化模拟方法与试验技术

[1]     D. L. Jin, Y. Yuan, S. M. Zheng, G. Muciaccia, J. Lógó, J. L. Zhang*. Effects of UHPC age and interfacial treatment on structural behavior of post-cast UHPC joints in prefabricated wall-base slab assemblies. Engineering Structures, 2025, 344, 121324.

[2]     Y. Yuan, B.-R. Shi, Y.-L. He, P. Feng, J.-L. Zhang*. Will a pre-structure concept be applicable to tunnels in squeezing ground? Tunnelling and Underground Space Technology, 2025, 164: 106832.

[3]     K. Liu, L. Xu, R. Wang*, J.-L. Zhang, Y. Yuan, H. A. Mang, B. Pichler. Effect of nano-silica on material properties, pore structure, and hydration of polyacrylate/cement composite paste. Construction and Building Materials, 2025, 490: 142503.

[4]     Y. Yuan, R.-Y. Sheng, X. Yao, B. Pichler, H. A. Mang, J.-L. Zhang*. A three-step development strategy for 3D printable concrete containing coarse aggregates. Case Studies in Construction Materials, 2025, 22: e04540.

[5]     S.-W. Zhang, J.-L. Zhang, R. Wang*, Y. Yuan. Nano-adhesion behavior and failure mechanisms of polymer cement-based materials at high temperature. Construction and Building Materials, 2025, 476: 141245. 

[6]     Y. Yuan, I. O. Fatoyinbo, R. Sheng, Q. Wang, S. Zia, P. Cui, J.-L. Zhang*. Advancing the applicability of recycled municipal solid waste incineration bottom ash as a cement substitute in printable concrete: Emphasis on rheological and microstructural properties. Journal of Building Engineering, 2025, 103: 112133. 

[7]     S.-W. Zhang, R. Wang*, J.-L Zhang, Y. Yuan. Enhancing dispersion and mechanical properties of carbon nanotube-reinforced cement-based material using polymer emulsions. Cement and Concrete Composites, 2025, 157: 105910.

[8]     S. Liu, Z. Zhang, Y. Yuan Y, L. Taerwe, J-L Zhang. A novel method for construction of railway stations based on continuous open caissons. Structural Concrete. 2025. 2025;26:8–12.

[9]     Y. Yuan, L. Shu, Z.-L. Xu, X.-Z. Wang, S. M. Mudassir, J-L. Zhang*. Experimental investigation of the effect of ground surcharge on the structural behavior of a quasi-rectangular tunnel. Frontiers of Structural and Civil Engineering, 2025, 19(3): 427-444.

[10]  S. W. Zhang, R. Wang*, J.-L. Zhang, Y. Yuan. Enhancing toughness in cement-based composites: Unraveling the composite effect mechanisms of polymers and fibers through physic testing and molecular dynamics simulations. Composites Part B: Engineering,2024, 287: 111827.

[11]  Y. Yuan, I.O. Fatoyinbo, X. Yao, T. Liu, Y. Chi, J.-L. Zhang*. Dimensionless analysis-based permeability model of reinforced concrete under tension. Scientific Reports, 2024, 14 (1): 17163.

[12]  Q. Wang, R. Sheng, Q. Sang, X. Chen, J.-L. Zhang, N. Ukrainczyk, E. Koenders, Y. Yuan*. Multiscale model for concrete cured under geothermal environment: Theoretical analysis and experimental validation. Construction and Building Materials, 2024, 449: 138385. 

[13]  Q. Wang, H. Wang, E. Koenders, J.-L. Zhang, Y. Yuan*. An innovative PCM-modified lining system for energy tunnel: From concept to numerical investigations. Applied Thermal Engineering, 2024, 248: 123232.

[14]  Y. Yuan, D.-L. Jin, L. Taerwe, G.-Q. Zhao, D.-S. Zhang, J.-L. Zhang*. Application of prefabrication construction method to the Asia's largest plant for sewage treatment. Structural Concrete, 2024, 25 (3): 1502-1507.

[15]  Y. Yuan, X. Wang, J.-L. Zhang*, Y. Tao, K. Van Tittelboom, L. Taerwe, and G. De Schutter*: The shear strength of the interface between artificial rock and printed concrete at super-early ages, Frontiers of Structural and Civil Engineering, 2024, 18(1):51-56.

[16]  J.-L. Zhang, D.-L. Jin, Y. Yuan*, H. Chen, Z.-Y. Hu, J.-N. Qiu*: Shear behavior of cylindrical pin-sleeve connectors of neighboring segments of immersed tunnels, Tunnelling and Underground Space Technology, 2023，140: 105288. 

[17]  J.-L. Zhang, Y. Yuan*, X. Liu, H. Mang, and B. Pichler*: Quantification of the safety against groundwater ingress through longitudinal joints of segmental tunnel linings by means of convergences, Tunnelling and Underground Space Technology, 2023，136: 105102. 

[18]  J.-L. Zhang, Z. Jiang, X. Liu, Y. Yuan, H. Mang, and B. Pichler*: Identification of deformed configurations of segmental tunnel rings based on measured convergences, Tunnelling and Underground Space Technology, 2023，135: 105033.

[19]  J-L. Zhang, X. Liu*, T. Ren, Y. Shi, Y. Yuan: Numerical analysis of tunnel segments strengthened by steel-concrete composites, Underground Space, 2022, 7: 1115-1124. 

[20]  J.-L. Zhang, Y.-M. Gao, X. Liu*, Z.-A. Zhang, Y. Yuan, and H. A. Mang: A shield tunneling method for enlarging the diameter of existing tunnels: experimental investigations, Tunnelling and Underground Space Technology, 2022, 128: 104605.

[21]  J. L. Zhang, E. Binder, H. Wang, M. Aminbaghai, B. LA Pichler, Y. Yuan and Herbert A Mang*: On the added value of multiscale modeling of concrete, Frontiers of Structural and Civil Engineering, 2022, 16(7),1-23.

[22]  Z-J. Jiang, X. Liu, T. Schlappal, J-L. Zhang*, H. Mang and B.L.A. Pichler*: Asymmetric serviceability limit states of symmetrically loaded segmental tunnel rings: hybrid analysis of real-scale tests. Tunnelling and Underground Space Technology, 2021, 113，103832.

[23]  J.-L. Zhang, X. Liu*, J.-B. Zhao, Y. Yuan, H. Mang: Application of a combined precast and in-situ-cast construction method for large-span underground vaults. Tunnelling and Underground Space Technology, 2021, 111, 103795.

[24]  J. L. Zhang, X. Liu, Y. Yuan, H.A. Mang, and B.L.A. Pichler*: Transfer relations: useful basis for computer-aided engineering of circular arch structures. Engineering Computations, 2021， 38(3), 1287-1302.

[25]  E. Binder, H. Wang, J.-L. Zhang, T. Schlappal, Y. Yuan, H.A. Mang, B. Pichler*: Application-oriented fundamental research on concrete and reinforced concrete structures: Selected findings from an Austro-Chinese research project. Acta Mechanica, 2020, 231, 2231-2255.

[26]  T. Meng*, J.-L. Zhang, H.-D. Wei, J.-J. Shen: Effect of nano-strengthening on the properties and microstructure of recycled concrete, Nanotechnology Review, 9(2020): 79-92.

[27]  J.-L. Zhang, X. Liu*, T.Y. Ren, Y. Yuan, H.A. Mang: Structural behavior of reinforced concrete segments of tunnel linings strengthened by a steel-concrete composite. Composites Part B: Engineering, 2019, 107444.

[28]  J.-L. Zhang, H.A. Mang, X. Liu, Y. Yuan, B. Pichler*: On a nonlinear hybrid method for multiscale analysis of a bearing capacity test on a real-scale segmental tunnel ring. International Journal for Numerical and Analytical Methods in Geomechanics, 2019, 32(7): 1343-1372.

[29]  J.-L. Zhang, T. Schlappal, Y. Yuan, H.A. Mang, B. Pichler*: The influence of interfacial joints on the structural behavior of segmental tunnel rings subjected to ground pressure. Tunnelling and Underground Space Technology. 84(2019), 538-556. 

[30]  J.-L. Zhang, C. Vida, Y. Yuan, Ch. Hellmich, H.A. Mang, B. Pichler*: A hybrid analysis method for displacement-monitored segmented circular tunnel rings, Engineering Structures, 148 (2017), 839 - 856.

[31]  J.-L. Zhang, X. Liu*, Y. Yuan, H.A. Mang: Multiscale modeling of the effect of the interfacial transition zone on the modulus of elasticity of fiber-reinforced fine concrete, Computational Mechanics, 55 (2015), 1; 37 - 55.