Assessing the deflection behaviour of mechanical and insulated rail joints using finite element analysis

Gallou, Maria; Frost, Matthew W.; El-Hamalawi, Ashraf; Hardwick, C.

doi:10.1177/0954409718766925

Cited by 7 publications

(3 citation statements)

References 17 publications

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“… the arising stress-strain state of the rail joint elements is affected by the support geometry types [3] [17] [18],  significant stresses can be evolved due to wheel-rail contact in the rail head, as well as in the fishplated rail joint's elements that can lead to plastic deformation and early failures [19] [20] [21] [22],  rail joints are able to result supplementary (extra) dynamic effect that can issue with much more rapid deterioration process [23] [24] [25] [26].…”

Section: Introduction and Literature Reviewmentioning

confidence: 99%

FEM Modelling Possibilities of Glued Insulated Rail Joints for CWR Tracks

Major

Fischer

2020

Acta Tech. Jaurinensis

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In this paper the authors detail the possibilities of modelling of finite element method (FEM) of glued insulated rail joints which are applied in railway tracks with continuously welded rails (CWR). A lot of laboratory tests (static and dynamic 3-point bending tests, axial pulling tests) were executed on glued insulated rail joints, the specimens were related to three different rail profiles applied in Hungary: MÁV 48.5; 54E1 (UIC54), 60E1 (UIC60), respectively. The static bending tests with many bay length values were conducted, before and after dynamic (fatigue) tests. 2-D beam models were made in FEM software using semi-rigid hinge as the simplified connection of fishplated glued insulated rail joint. The FEM models were calibrated and then validated with the static vertical displacement values in the middle-bay position measured in laboratory. The model validation was conducted with two methods.

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Section: Introduction and Literature Reviewmentioning

confidence: 99%

FEM Modelling Possibilities of Glued Insulated Rail Joints for CWR Tracks

Major

Fischer

2020

Acta Tech. Jaurinensis

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“…There are a few early papers available presenting performance focussing on mechanical rail joints [1,2] and more recently such papers are also focusing on IRJs through experiments and numerical modelling [3,4,5,6]. However, the effects of endpost materials on mechanical behaviour and railhead and sub-surface material damage due to cyclic wheel loading has not yet been examined in full.…”

Section: Introductionmentioning

confidence: 99%

Quantification of sub-surface railhead material damage due to composite endpost materials of insulated rail joints for cyclic wheel loadings

Mandal

Lewis

Wen

2020

Engineering Failure Analysis

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This study focusses on a 3D finite element analysis to investigate damage of sub-surface railhead material at insulated rail joints (IRJs) considering different composite endpost materials (fibreglass, nylon 66 and polytetrafluoroethylene). At the wheel/rail contact patch on IRJs, vertical wheel impacts up to a total of 2000 cycles are applied. Damage parameters exhibit a vertical flat type damage pattern for a depth up to 8mm initially and, as the cyclic loading increases, the flat damage pattern changes to a horizontal bell-shape pattern. The results indicate that fibreglass is a better endpost material to control sub-surface railhead material damage.

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“…Further, the present results were compared to the corresponding finite element numerical calculation results for analyzing the main influencing factors of rail deformation. 28…”

Section: Introductionmentioning

confidence: 99%

Mapping the relationship between the structural deformation of a simply supported beam bridge and rail deformation in high-speed railways

Jiang

Zheng

Feng

et al. 2019

Proceedings of the Institution of Mechanical Engineers, Part F:

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By considering the effect of the constraints of the rails on the subgrade section on both sides of a bridge, analytical expressions are derived to study the mapping relationship between the rail deformation and changes in the condition of the supporting beam(s), based on the principle of minimum potential energy. Rail deformations in a slab track–bridge system induced by the subsidence of piers and beam faults are investigated in detail. Results are compared with the finite element calculations to assess the main factors that influence rail deformation. The results show that the rail deformation curves under different working conditions (single or multiple pier subsidence and beam faults) determined using the analytical model fit well with those from the finite element models. With increasing subsidence of piers, the rail deformed more significantly in the subsidence zone. Moreover, both the maximum downward and upward deformations of the rail changed linearly with the subsidence of piers. Use of fasteners or a mortar layer with greater vertical stiffness caused the rail to become more irregular.

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Assessing the deflection behaviour of mechanical and insulated rail joints using finite element analysis

Cited by 7 publications

References 17 publications

FEM Modelling Possibilities of Glued Insulated Rail Joints for CWR Tracks

FEM Modelling Possibilities of Glued Insulated Rail Joints for CWR Tracks

Quantification of sub-surface railhead material damage due to composite endpost materials of insulated rail joints for cyclic wheel loadings

Mapping the relationship between the structural deformation of a simply supported beam bridge and rail deformation in high-speed railways

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