Journal ArticleDOI
High-Speed Trains Subject to Abrupt Braking
TLDR
In this paper, the dynamic response of a high-speed train subject to braking is investigated using the moving element method, where the train is modelled as a 15-DOF system comprising of a car body, two bogies and four wheels interconnected by spring-damping units and the interaction between the moving train and track-foundation is accounted for through the normal and tangential wheel-rail contact forces.Abstract:
The dynamic response of high-speed train subject to braking is investigated using the moving element method. Possible sliding of wheels over the rails is accounted for. The train is modelled as a 15-DOF system comprising of a car body, two bogies and four wheels interconnected by spring-damping units. The rail is modelled as a Euler–Bernoulli beam resting on a two-parameter elastic damped foundation. The interaction between the moving train and track-foundation is accounted for through the normal and tangential wheel–rail contact forces. The effects of braking torque, wheel–rail contact condition, initial train speed and severity of railhead roughness on the dynamic response of the high-speed train are investigated. For a given initial train speed and track irregularity, the study revealed that there is an optimal braking torque that would result in the smallest braking distance with no occurrence of wheel sliding, representing a good compromise between train instability and safety.read more
Citations
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Journal ArticleDOI
Static and Dynamic Analyses of Mindlin Plates Resting on Viscoelastic Foundation by Using Moving Element Method
TL;DR: In this article, a novel computational approach using the moving element method (MEM) for simulating the dynamic response of Mindlin plate resting on a viscoelastic foundation and subjected to m...
Journal ArticleDOI
Moving element analysis of discretely supported high-speed rail systems:
TL;DR: A computational scheme in conjunction with the moving element method has been proposed to investigate the dynamic response of a high-speed rail system in which the discrete sleepers on the subgrade support the railway track and found that ahigh-speed train that travels over a discretely supported track produces more severe vibrations than that travelled over a continuously supported track of equivalent foundation stiffness.
Journal ArticleDOI
Dynamic Response of High-Speed Train-Track System Due to Unsupported Sleepers
TL;DR: A three-phase computational scheme in conjunction with the MEM is proposed to account for the motion of the unsupported sleepers in relation to the truncated rail segment in the moving coordinate system.
Journal ArticleDOI
Dynamic analysis of three-dimensional high-speed train-track model using moving element method:
TL;DR: The moving element method is extended to establish the coupling formulations of the mass, damping, and stiffness matrices in vertical and lateral directions, where the element matrices are formulated based on a convected coordinate system attached to the moving vehicle.
References
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Book
Finite Element Procedures
TL;DR: The Finite Element Method as mentioned in this paper is a method for linear analysis in solid and structural mechanics, and it has been used in many applications, such as heat transfer, field problems, and Incompressible Fluid Flows.
Journal ArticleDOI
Creep forces in simulations of traction vehicles running on adhesion limit
TL;DR: In this article, the authors present a method to simulate various real wheel-rail contact conditions using one parameter set, which can be identified from measurements or the recommended parameters for modelling of typical wheel rail contact conditions in engineering applications.
Journal ArticleDOI
The Manchester Benchmarks for Rail Vehicle Simulation
TL;DR: The results of the Manchester Benchmarking exercise for railway vehicle dynamics simulation packages are presented in this article in the form of tables and graphs, and the results are compared with the results obtained in the previous edition.
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