Mapping Law of CRTS Ⅱ Type Slab Ballastless Track Static Deformation Due to Subgrade Horizontal Deformation
Journal Title: Urban Mass Transit - Year 2024, Vol 27, Issue 7
Abstract
Objective Aiming at the insufficient control indexes for high-speed railway subgrade horizontal deformation currently, it is necessary to study the influence law and limit values of ballastless track subgrade horizontal deformation. Method Using finite element method, the structural stress, deformation, and track irregularity of CRTS (China railway track system) II type ballastless track are calculated under horizontal deformation conditions of cosine-shaped subgrade with different wavelengths and amplitudes. Referring to the allowable tolerance values for track geometric dimensions and the allowable tensile stress values of ballastless track structure, the transmission law and limit values of subgrade cosine-shaped horizontal deformation are studied. Result & Conclusion The horizontal deformation of ballastless track structures such as rail, track slab, mortar layer and supporting layer shows significant response characteristics to cosine-shaped horizontal deformation of high-speed railway subgrade. When the wavelength and amplitude of horizontal deformation are 20 m and 10 mm respectively, the influence of subgrade cosine-shaped horizontal deformation on track alignment irregularity is the greatest, followed by the influence on track horizontal irregularity, while the influence on gauge and vertical irregularity indicators can be ignored. When the amplitude of horizontal deformation is 20 mm, as its wavelength increases, the maximum value of rail horizontal deformation increases, while the track irregularity, track slab and supporting layer tensile stresses first increase and then decrease. The limit value of subgrade cosine-shaped horizontal deformation amplitude increases with the increase of horizontal deformation wavelength, and the two satisfy a quadratic function relationship.
Authors and Affiliations
Wei YIN, Wanyu NI, Guangpeng YAN
Keywords
Related Articles
- EP ID EP742614
- DOI 10.16037/j.1007-869x.2024.07.030
- Views 54
- Downloads 0
A Design Method for Improving the Reliability of Urban Rail Transit One-way Data Transmission Based on Information Backup Technology
Objective In order to deal with the potential security threats caused by the complex connections between various subsystems in urban rail transit system, China Urban Rail Transit Association proposes that physical securi...
Impact Analysis of Interface Thermal Conductivity on Pantograph-Catenary Contact Temperature Rise
[Objective] The interface temperature rise caused by PC (pantograph-catenary) contact in electric trains can accelerate the wear of pantograph strips, thereby increasing the maintenance costs of rail transit systems. T...
Numerical Simulation Study and Process Optimization of Closed-die Forging for Coupler Knuckle
[Objective] To ensure that railway coupler knuckles meet strict mechanical performance requirements and to overcome the limitations of traditional casting and open-die forging processes in terms of forming quality and...
Engineering Application of Calculation for Interval Protection Distance between Virtual Marshalling Trains in Urban Rail Transit
[Objective] The operation of virtual marshaling trains (abbreviated as V-train) in urban rail transit meets the construction requirements for green energy conservation and green intelligence integrated development proj...
Lightning Test and Simulation Research for Medium-speed Maglev Train
Objective When medium-speed maglev trains operate on elevated tracks, the carbody is susceptible to lightning strikes. If composite materials are adopted for medium-speed maglev train carbody, damage or even penetration...