李眈
李眈,男,博士(英国伯明翰大学),清华大学、西南交通大学访问学者,讲师。
主要研究方向:预应力混凝土的经时效应和耐久性。
科研工作与成果:参与编著专著1部,已发表期刊及会议论文26篇,其中9篇被SCI期刊录用。
开设的主要课程:土木工程智慧管理和智慧施工
电子邮箱:danli1992@sit.edu.cn
主要发表的论文
1. Li D, Kaewunruen S, You R. Remaining fatigue life predictions of railway prestressed concrete sleepers considering time-dependent surface abrasion[J]. Sustainability, 2022, 14(18): 11237.
2. Li D, Kaewunruen S, You R, et al. Fatigue life modelling of railway prestressed concrete sleepers[C]//Structures. Elsevier, 2022, 41: 643-656.
3. Li D, You R, Kaewunruen S. Mechanisms and Evolution of Cracks in Prestressed Concrete Sleepers Exposed to Time-Dependent Actions[J]. Applied Sciences, 2022, 12(11): 5511.
4. Li D, You R, Kaewunruen S. Crack Propagation Assessment of Time-Dependent Concrete Degradation of Prestressed Concrete Sleepers[J]. Sustainability, 2022, 14(6): 3217.
5. Li D, Kaewunruen S. Effect of extreme climate on topology of railway prestressed concrete sleepers[J]. Climate, 2019, 7(1): 17.
6. Li D, Kaewunruen S, You R. Time-dependent behaviours of railway prestressed concrete sleepers in a track system[J]. Engineering Failure Analysis, 2021, 127: 105500.
7. Li D, Kaewunruen S. Mechanical properties of concrete with recycled composite and plastic aggregates[J]. International Journal of GEOMATE, 2019, 17(60): 231-238.
8. Li D, Kaewunruen S, Robery P, et al. Parametric studies into creep and shrinkage characteristics in railway prestressed concrete sleepers[J]. Frontiers in Built Environment, 2020: 130.
9. Kaewunruen S, Li D, Chen Y, et al. Enhancement of dynamic damping in eco-friendly railway concrete sleepers using waste-tyre crumb rubber[J]. Materials, 2018, 11(7): 1169.
10. You R, Li D, Ngamkhanong C, et al. Fatigue life assessment method for prestressed concrete sleepers[J]. Frontiers in Built Environment, 2017, 3: 68.
11. Liu R, Li D, Kaewunruen S. Role of Railway Transportation in the Spread of the Coronavirus: Evidence from Wuhan-Beijing Railway Corridor[J]. Frontiers in Built Environment, 2020: 190.
12. Ngamkhanong C, Li D, Remennikov A M, et al. Dynamic capacity reduction of railway prestressed concrete sleepers due to surface abrasions considering the effects of strain rate and prestressing losses[J]. International Journal of Structural Stability and Dynamics, 2019, 19(01): 1940001.
13. Liu P, Yang X F, Li D. The experimental study on the vibration of membrane structure under impact load[J]. International Journal of Space Structures, 2022, 37(2): 107-118.
专著编写
1. Li, D., Chapter 13: Diagnostics and Management Methods for Sleepers, in Rail Infrastructure Resilience a Best Practices Handbook, S.K. Rui Calcada, Editor. 2021, Woolhead Publishing.