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硕士报考志愿采集    更新日期:2022年4月7日
姓 名 蒋冬启 性 别
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学科专业(主) 0814|土木工程 招生类别 硕士 所在学院 安全科学与工程学院
研究方向

学科专业:0814|土木工程;0859|土木水利

研究方向:1.桥梁结构;2.混凝土结构;3.海上浮式结构;4.车桥耦合振动;5.工程管理与信息化
工作经历

主授《混凝土结构基本原理》、《高等混凝土结构》、《土木工程中的有限元方法》、《桥梁工程》、《土木复杂工程问题研讨》和《土木工程制图及其信息模型》等多门专业课程,并承担学校科研任务。

教育经历

2012/08 – 2015/12,美国德州农工大学(Texas A&M University),土木工程专业,博士

2009/09 – 2012/01,中国建筑科学研究院,结构工程专业,硕士

2005/09 – 2009/07,同济大学,土木工程专业,学士

获奖、荣誉称号

江苏省“双创博士”

全国大学生结构信息技术大赛特等奖指导教师

高校BIM装配式设计大赛一等奖指导教师

全国大学生岩土竞赛三等奖指导教师

江苏省大学生土木工程结构创新竞赛三等奖指导教师

南京理工大学教学创新大赛一等奖

南京理工大学优秀竞赛指导教师

南京理工大学优秀党员

社会、学会及学术兼职

中国民族建筑研究会建筑迁移保护专业委员会理事

中国钢结构协会钢结构稳定疲劳与教育分会青年理事

江苏省力学学会能源结构力学专业委员会委员

科研项目

主持国家自然科学基金、江苏省自然科学基金等多项国家级和省部级科研项目

发表论文

1. Bi, G., Ren, C., Xu, H., and Jiang, D. (2022), “Creep behavior of cohesive soils associated with different plasticity indexes,” Environmental Earth Sciences, 81(5): 1-9.

2. Jiang, D., Tan, K.H., Wang, C.M., and Dai, J. (2021), “Research and development in connector systems for very large floating structures,” Ocean Engineering, 232: 109150.

3. Jiang, D., Tan, K.H., Dai, J., Ang, K.K., and Nguyen, H. (2021), “Behavior of concrete modular multi-purpose floating structures,” Ocean Engineering, 229: 108971.

4. Dai, J., Wan, L., Jiang, D., and Ang, K.K. (2021), “Parametric study and dynamic response analysis of three single curved discrete pontoon floating bridges,” Ships and Offshore Structures, 2021: 1943849.

5. Hu, Y., Zuo, X., Li, X., and Jiang, D. (2021), “Investigation on alkalinity of pore solution and microstructure of hardened cement-slag pastes in purified water,” Advances in concrete construction, 12(6), 507-515.

6. Bi, G., Li, Z., Wang, Q., and Jiang, D. (2021), “An examination of creep failure criterion based on a strain threshold identified with a power law model,” Mechanics of Time-Dependent Materials, 2021, 1-15.

7. Wan, L., Jiang, D.* and Dai, J. (2020), “Numerical modelling and dynamic response analysis of curved floating bridges with a small rise-span ratio,” Journal of Marine Science and Engineering, 2020, 8, 467.

8. Terzioglu, T., Jiang, D., Hueste, M.B.D., and Mander, J. (2020), “Development of a new short-span bridge system — a comprehensive approach,” ACI Special Publication, SP-340, 137-158.

9. Jiang, D., Xiao, C., Chen, T., and Zhang, Y. (2019), “Experimental study of high-strength concrete-steel plate composite shear walls,” Applied Sciences, 9. 14.2820.

10.Bi, G., Li, Z., Jiang, D. et al. (2019), “Reanalysis long-term settlement of san jacinto monument with a power law model,” Environmental Earth Sciences, 78(24), 717.

11.Jiang, D., Tan, K.H., Dai, J., Ong, K.C.G., and Heng, S. (2018), “Structural performance evaluation of innovative prestressed concrete floating fuel storage tanks,” Structural Concrete, 1-17. 10.1002/suco.201800032.

12.Jiang, D., Tan, K.H., Wang, C.M., Ong, K.C.G., Bra, H., Jin J. and Kim, M. (2018), “Analysis and design of floating prestressed concrete structures in shallow waters,” Marine Structures, 59, 301-320.

13.Dai, J., Ang, K.K.*, Luong, V., Tran, M., and Jiang, D.* (2018), “Out-of-plan responses of overspeeding high-speed train on curved track,” International Journal of Structural Stability and Dynamics, 18(11): 1850132.

14.Dai, J., Ang, K.K.*, Jiang, D.*, Luong, V., and Tran, M. (2018), “Dynamic response of high-speed train-track system due to unsupported sleepers,”  International Journal of Structural Stability and Dynamics, 18(10): 1850122.

15.Dai, J., Ang K.K.*, and Jiang, D.* (2018). "Moving element analysis of high-speed rail system accounting for hanging sleepers." MATEC Web of Conf. 148: 05007.

16.Dai, J., Ang, K.K., Tran, M., Luong, V., and Jiang, D. (2018), “Moving element analysis of discretely supported high-speed rail system,” Proceedings of the Institution of Mechanical Engineers, Part F: Journal of Rail and Rapid Transit, 0954409717693147.

17.Wang, C.M., Dai, J., Jiang, D., and Olsen, T.O. (2017), “Large floating concrete structures,” Concrete in Australia, 43(2), 49-60.

18.Jiang, D., Terzioglu, T., Hueste, M.B.D., Mander, J., and Fry, G. (2016), “Experimental study of an in-service spread slab beam bridge.” Engineering Structures, Vol. 127, pp. 525-535.

19.Terzioglu, T., Jiang, D., Hueste, M.B.D., and Mander, J. (2016), "Design and constructability of spread slab beam bridges." ASCE Journal of Bridge Engineering, 21(12), 04016089.

20.Terzioglu, T., Jiang, D., Hueste, M.B.D., and Mander, J. (2016), "Experimental investigation of a full-scale spread slab beam bridge." ASCE Journal of Bridge Engineering, 21(11), 04016082.

21.张于晔,潘睿阳,蒋冬启.车辆撞击作用下泡沫铝防撞桥墩的动态响应特性. 振动工程学报, 2021(1), 89-98.

22.雷拓,刘宜,李坤,蒋冬启,董军锋.剪力墙结构置换加固应力重分布. 建筑科学与工程学报, 2020(5), 132-141.

23.蒋冬启,李基成,张于晔,姚波.分离式空心板梁桥的荷载横向分布系数计算方法. 河海大学学报:自然科学版, 2020, 48(5): 453-459.

24.蒋冬启,肖从真,陈涛,田春雨,徐培福,杨晓蒙.高强混凝土钢板组合剪力墙压弯性能试验研究. 土木工程学报,2012(3), 17-25, 78.

25.Jiang D., Chen, T., Liu, S., and Bi, G. (2020), “Machine learning-based failure mode identification of reinforced concrete steel plate shear walls," Proceedings, IABSE Congress 2020, Christchurch, New Zealand. (Postponed to February, 2021 due to COVID19).

26.Jiang, D. (2020), “Extending span ranges and accelerating construction of spread slab beam bridges," Proceedings, IABSE Congress 2020, Christchurch, New Zealand. (Postponed to February, 2021 due to COVID19).

27.Tan, K.H., Jiang D.*, and Heng, S. (2017), “Structural Behavior of Concrete Floating Modular Structures," Proceedings, 8th International Conference on Structural Engineering and Construction Management 2017, Kandy, Sri Lanka, December.

28.Jiang, D., Tan, K., Ong, K.C.G., and Heng, S. (2017), “Behavior of Prestressed Concrete Floating Self-stabilizing Fuel Storage Tanks," Proceedings, 4th Congrès International de Géotechnique Ouvrages Structures (CIGOS) Conference 2017, Ho Chi Minh City, October.

29.Xiao, C., Jiang, D., Chen, T., and Xu, Z. (2012), “Seismic Behavior of Steel Plate Reinforced Concrete Shear Walls,” Proceedings, 9th CTBUH World Congress, Shanghai, China, September.