Abstract
Major growth in rail traffic in many parts of the world in recent years has brought railway networks close to capacity and restricted the time available for track access to carry out maintenance work without costly temporary route closures. There are, therefore, significant benefits in designing or modifying ballasted track systems to reduce maintenance and associated access requirements. Under sleeper pads (USPs) offer the potential to extend ballasted track system life and to extend the intervals between routine maintenance. This paper presents and evaluates field measurements, made using geophones and high speed filming with digital image correlation (DIC), of the performance of a renewed section of track incorporating two switches and crossings (S&C) over a period of two years. One S&C was fitted with two types of USP (categorised as medium and soft), while the other had no USPs and acted as a control. Measurements demonstrate that the bearers with USPs fitted showed less variability in movement than bearers without USPs fitted. The provision of soft USPs caused large increases (>40%) in vertical bearer movements relative to bearers without USPs, although the medium USPs showed little difference. Increased movements of elongated bearers supporting both tracks fitted with soft USPs led to increased bearer rotations towards the loaded track. This effect was aided by the rigid steel collar fixing in the middle of the bearer used in this design of S&C, and raises questions concerning the desirability of this feature. DIC measurements showed that the at rest position of the elongated bearers rotated towards the track on which a train had most recently passed.
Highlights
Many countries have seen major growth in rail traffic over the past decade or so, which has brought existing networks close to capacity
This paper presents and evaluates field measurements of the performance of Under sleeper pads (USPs) installed on a renewed section of track incorporating switches and crossings (S&C) to develop an improved understanding of how USPs change track performance and may help to reduce the required frequency of maintenance
Underbridge, up to 12 bearers supported by the medium USPs and up to 18 bearers supported by the soft USPs
Summary
Many countries have seen major growth in rail traffic over the past decade or so, which has brought existing networks close to capacity. Increased network use restricts the time available for maintenance without costly temporary route closures. Improvements in track performance from USPs can be attributed to two mechanisms that reduce maximum stresses in the trackbed. USPs reduce the effective rail support stiffness This results in a spreading of the deflection bowl from an individual load along a greater length of track, and a lower maximum stress in the supporting trackbed. The placement of a USP at the sleeper or bearera to ballast interface reduces grain contact stresses and increases the number of contacts. The benefits of USPs in reducing maximum trackbed stresses can be described qualitatively and demonstrated theoretically for individual load cycles using simple closed-form equations and numerical modelling. This paper presents and evaluates field measurements of the performance of USPs installed on a renewed section of track incorporating S&C to develop an improved understanding of how USPs change track performance and may help to reduce the required frequency of maintenance
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