Dr. Xuhao Cui: Leading Researcher in Transportation engineering
π Congratulations Dr. Xuhao CuiΒ on Winning the Best Paper Award! π Your dedication to research, mentorship, and collaboration with international teams is truly commendable. This award is a testament to your outstanding work and the impact it has on the broader community.
Professional Profile:
π Education:
- Received B.S. degree in civil engineering from Lanzhou Jiaotong University in 2016.
- Attained Ph.D. in road & railway engineering from Beijing Jiaotong University in 2022.
π Currently serving as a postdoctoral fellow at Beijing University of Technology and as a lecturer.
π Research Interests: Specializes in the in-service performance of track structure infrastructure.
π‘ Achievements: Secured funding from the National Natural Science Foundation of China in 2023 and the Central University Basic Research Business Fee project in 2019.
π¨βπΌ Professional Experience: Hosted and participated in multiple projects, contributing to the field of railway track infrastructure.
π Publication Top Noted:Β
- Effects of lateral differential settlement of the subgrade on deformation behavior and damage evolution of CRTS II slab track
- Analysis of ballast breakage in ballast bed when using under sleeper pads
- Effects of the subgrade differential arch on damage characteristics of CRTS III slab track and vehicle dynamic response
- Vibration characteristics of spring-steel floating slab track and cause analysis of rail corrugation
- Influence of Uneven Subgrade Frost Heave on Deformation and Damage of CRTSIII Slab Track
π¬ Research Contributions:
- Developed an improved bilinear mixed mode cohesive force model for simulating interlayer bonding damage behavior in ballastless track structures.
- Established an instability and arch analysis model for longitudinal continuous slab ballastless track structures under complex temperature action.
- Conducted morphological reconstruction of irregular shapes of railway ballast, proposing technology for delaying ballast degradation.
π Impact: Has tremendous influence in the industry, making significant contributions to the safe construction and service of railway track infrastructure.
π¨βπ« Contribution to Research & Development:
- Established a spatial nonlinear coupled dynamic model of high-speed train ballastless track subgrade system.
- Explored interlayer gap and arch deformation laws of longitudinal continuous slab ballastless track structure under complex temperature action and joint damage.
- Developed a coupling analysis method between train ballast bed discrete element and finite element, as well as a simulation method for ballast fragmentation and degradation.
- Proposed technology for delaying ballast degradation based on the combination of track optimization and structural vibration reduction.