姓名：王思豪

职称：学校统招博士后

电子邮件：wangsihao@tongji.edu.cn

研究领域：钢-混凝土组合结构桥梁、钢-混凝土连接耐久性、钢结构稳定性

合作导师：刘玉擎 教授

教育经历

• 2012.09 - 2016.06 吉林大学交通学院，学士

• 2016.09 - 2018.12 同济大学土木工程学院桥梁工程系，硕士研究生

• 2019.03 - 2023.03 同济大学土木工程学院桥梁工程系，博士研究生

工作经历

• 2023.03 - 至今 同济大学土木工程学院桥梁工程系，博士后

研究项目

• 青年科学基金项目（C类），52408205，氯盐侵蚀下波形钢腹板组合桥梁底板结合部开孔板连接件损伤机理及抗剪性能退化模型，2025.01 - 2027.12，主持.

• 国家资助博士后研究人员计划项目，GZC20231949, 波形钢腹板-混凝土底板开孔板连接件腐蚀损伤演变机理及耐久寿命评估, 2023.12 - 2025.12，主持.

• 广西重点研发计划项目，高性能耐候钢在组合桥梁中应用及养护技术研究，2022.07 - 2025.06，参与

• 浙江省交通运输厅科研项目，波形钢腹板组合桥施工方法研究，2019.09-2020.12，参与

• 广西重点研发计划项目，超大跨波折钢腹板组合梁桥建设核心技术研究，2019.06 - 2022.09 ，参与

• 南宁市重点研发计划项目，新型超大跨组合梁桥波折钢腹板的研发及设计理论研究，2019.01 - 2020.12 ，参与

• 山西省交通运输厅科研项目，大跨径波形钢腹板组合结构部分斜拉桥关键技术与应用研究，2017.02 - 2020.12，参与

发表论文

1. Wang Sihao, Liu Y, Liang C . Elastic critical shear buckling stress of stiffened large-scale corrugated steel webs. Engineering Structures, 2025 (Accepted)

2. Wang Sihao, Liu Y, Cai H. Imperfection sensitivity and shear strength of large-scale corrugated steel webs. Journal of Constructional Steel Research, 2025, 235:109769.

3. Wang T, Liu Y, Wang S, Ma G, Yang X, Wang Sihao*. Load transfer mechanism of steel-concrete joint in hybrid girder cable-stayed bridges. Structures, 2025, 230: 109549.

4. Luo T, Zhang Y, Zhang K, Liu Y, Wang Sihao*. Feilong Bridge, China: A super-large-span composite bridge with corrugated steel webs, Proceedings of the Institution of Civil Engineers: Civil Engineering, 2025: 1-8.

5. Wang Sihao, Liu Y, Cai H, Liang B, Guo X. Transverse bending mechanism of partially encased joint with perfobond connectors in composite bridge with corrugated steel webs. Structures, 2024, 61:106028.

6. Cai H, Liu Y, Wang Sihao*. Shear force distribution mechanism of perfobond leiste connectors in joint between corrugated steel web and concrete top slab. Structures, 2024, 59: 105797.

7. Wang Sihao, Zhang K, Zhang Y, Liu Y. Shear failure mechanism of local buckling-dominated large-scale corrugated steel web. Thin-Walled Structures, 2023, 182:110279.

8. Zhang Y, Liu Y, Wang Sihao*, Chen Y, He X, Zhang Y. Concrete Additional Stress near Intermediate Support for Composite Girder Bridges with Corrugated Steel Webs. Journal of Bridge Engineering, 2022, 27(3): 04021112.

9. He J, Suwaed A S H, Vasdravellis G, Wang Sihao. Standard Pushout Tests and Design Rules for a Bolted–Welded Hybrid Demountable Shear Connector. Journal of Structural Engineering, 2022, 148(8): 1–19.

10. He J, Suwaed A S H, Vasdravellis G, Wang Sihao. Behaviour and design of the ‘lockbolt’ demountable shear connector for sustainable steel-concrete structures. Structures, 2022, 44(June): 988–1010.

11. Wang Sihao, Zhang Y, Luo T, Liu Y. Elastic critical shear buckling stress of large-scale corrugated steel web used in bridge girders. Engineering Structures, 2021, 244: 112757.

12. He J, Wang Sihao, Liu Y, Wang D. Shear behavior of steel I-girder with stiffened corrugated web, Part II: Numerical study. Thin-Walled Structures, 2020, 147: 106025.

13. Liu Y, Wang Sihao, Xin H, Liu Y. Evaluation on out-of-plane shear stiffness and ultimate capacity of perfobond connector. Journal of Constructional Steel Research, 2020, 167: 105850.

14. Wang Sihao, Liu Y, He J, Xin H, Yao H. Experimental study on cyclic behavior of composite beam with corrugated steel web considering different shear-span ratio. Engineering Structures, 2019, 180: 669-684.

15. Wang Sihao, He J, Liu Y. Shear behavior of steel I-girder with stiffened corrugated web, Part I: Experimental study. Thin-Walled Structures, 2019, 140: 248-262.

16. He J, Wang Sihao, Liu Y, Dai L, Lv Z, Li C, Xin H, Tan C. The development of composite bridges with corrugated steel webs in China. ICE - Bridge Engineering, 2019, 174(4): 1–17.

17. He J, Liu Y, Wang Sihao, Xin H, Chen H, Ma C. Experimental study on structural performance of prefabricated composite box girder with corrugated webs and steel tube slab. Journal of Bridge Engineering, 2019, 24(6): 04019047.

18. Feidaki E, Vasdravellis G, He J, Wang Sihao. Steel-Yielding Demountable Shear Connector for Composite Floors with Precast Hollow-Core Slab Units. Journal of Structural Engineering, 2019, 145(8): 04019076.

19. Wang Sihao, He J, Liu Y, Li C, Xin H. Shear capacity of a novel joint between corrugated steel web and concrete lower slab. Construction and Building Materials, 2018, 163: 360-375.

20. He J, Wang Sihao, Liu Y, Lv Z, Li C. Mechanical behavior of partially encased composite girder with corrugated steel web: interaction of shear and bending. Engineering, 2017, 3(6): 806-816.

21. 蒙东升, 张坤球, 王思豪, 等. 波形钢腹板组合梁桥钢腹板自承重悬臂浇筑施工模型试验研究[J]. 公路, 2025, 70(06):123-130.

22. 唐亚森, 罗婷倚, 张 云, 王思豪, 刘玉擎. 横州飞龙大桥主桥设计. 世界桥梁, 2024, 52(03):17-22.

23. 王思豪, 张云, 张坤球, 刘玉擎. 组合折腹梁桥外包型结合部受力机理分析. 结构工程师. 2022, 5: 22-28.

24. 王枭, 金文刚, 王思豪, 刘玉擎. 运宝黄河大桥主梁设计与施工关键技术. 世界桥梁, 2019, 47(01):1-5.

25. 王思豪, 刘玉擎, 庄卫林, 等. 波形钢腹板组合梁抗震性能试验. 哈尔滨工业大学学报, 2018, 50: 61-67.

26. 贺君, George V, 王思豪, 等. 新型可拆卸开孔钢管连接件抗剪性能. 中国公路学报, 2018, 31(12): 28-36.

27. 刘玉擎, 王思豪, 庄卫林, 等. 折形钢板-混凝土组合梁拟静力性能研究. 建筑结构学报, 2017(S1), 38: 302-307. 

科研奖励

• 广西科学技术进步一等奖, 高截面波形钢腹板组合梁桥设计关键技术及工程应用, 2025.02, 排名5/15.

• 中国钢结构协会科技进步二等奖, 波形钢腹板组合桥梁设计理论与建造智能化研究, 2023.10, 排名4/10.

发明专利

• 一种钢-混凝土组合腹板及其施工方法, ZL2021 1 0691837.5, 2022.05.

• 一种双层波形钢腹板内填混凝土的组合腹板结构, ZL 2020 1 0256553.9, 2021.07.

参编标准

• DBJT45/T 051-023. 公路波形钢腹板预应力混凝土梁桥设计指南, 广西地方标准, 2023-4-9.