Abstract
Track settlement is a common problem observed in ballasted railway tracks. The ballast bed and the material layers underneath it, deform under repeated trainloads and create uneven support conditions along the track. In some cases, the ballast settlement could be detrimental and the sleepers lose contact with the ballast bed partially or completely, resulting in higher contact forces and load distributions over the supported sleepers. Numerous studies have been conducted to investigate the phenomenon for normal tracks. Nevertheless, railway turnouts are somehow neglected. As a consequence, this study focuses on the relation between unsupported sleepers/bearers (particular name for turnouts) and a railway turnout system to develop the understanding of the response of turnout system under dynamic loadings. A 3D Finite Element Method (FEM) model is inherited from previous study and adopted to reflect the cases with unsupported bearer configurations. It is noteworthy that inherited model is capable of reflecting the impact forces, which is an inherent and fundamental characteristic of a railway turnout. Model verification is done with the parent model that was verified by field measurements. Three different support conditions (i.e., one, two, three unsupported bearers), five different velocities and six different positions of unsupported bearers are simulated. The results show that the performance of ‘fibre-reinforced foamed urethane’ (FFU) bearers are promising and more, unsupported bearers carry significant loads at particular locations, which is contrary to the sleepers on normal track that are subjected to insignificant loads.
Highlights
In railway applications, if the track is ballasted, the role to support track systems is widely played by a ballast layer, so-called ballast bed
The dynamic behavior of a turnout system that is assumed to have unsupported bearers in different locations has been investigated by numerical simulations
A numerical model of such a turnout is inherited from another numerical model that was developed previously to investigate the dynamic behavior of a turnout system
Summary
If the track is ballasted, the role to support track systems is widely played by a ballast layer, so-called ballast bed. It is composed of crushed and graded rock particles providing. Tracks are exposed to environmental effects leading to progressive deterioration in the ballast bed. In this sense, a well-known process is ‘mud pumping’ that is associated with ballast fouling due to foreign particles, filling the voids inside the ballast bed and inhibiting the drainage
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