The paper presents an optimisation procedure for improvement of crossing performance by adjusting the cro sing (including the wing rail) geometry. The improvement of the crossing performance is achieved by reducing the normal contact pressure and wear index, while shifting the location of the wheel impact (fatigue area) along the crossing. By shifting the fatigue area the life of the crossing can be prolonged. To demonstrate the proposed procedure the geometry of a crossing (crossing angle 1:15) has been optimised. The effect of two typical wheel profiles used on the considered crossing is taken in to account during the optimisation. The robustness of the obtained geometries has been verified using the numerical simulations with track geome...
Proper rail geometry in the crossing part is essential for reducing damages on the nose rail.A numer...
Proper rail geometry in the crossing part is essential for reducing damages on the nose rail. A nume...
The objective of this paper is to design a new system to reduce the risk of derailment at crossings,...
The paper presents an optimisation procedure for improvement of crossing performance by adjusting th...
Railway crossings are important operational elements in railway infrastructures. The discontinuity i...
A numerical method for robust geometry optimisation of railway crossings is presented. The robustnes...
This paper presents a methodology for improving the crossing (frog) geometry through the robust opti...
A parameter study and grid search optimisation is performed on a parameterised crossing geometry. Cr...
Methods for simulation-based optimisation of the design of railway turnouts (switches & crossings, S...
A series of numerical simulation tools have been developed to predict the kinematic motion of a rail...
Turnouts allow trains to change from one track to another. Therefore, they are an essential part of ...
The paper presents an integrated approach for analysis and improvement of performance of railway cro...
A methodology for simulatingwear, rolling contact fatigue, and plastic deformation for a mixed traff...
In this paper, we present a method for evaluating the performance of railway crossing rails after lo...
The procedure for analyzing turnout crossing performance is developed in this paper. The experimenta...
Proper rail geometry in the crossing part is essential for reducing damages on the nose rail.A numer...
Proper rail geometry in the crossing part is essential for reducing damages on the nose rail. A nume...
The objective of this paper is to design a new system to reduce the risk of derailment at crossings,...
The paper presents an optimisation procedure for improvement of crossing performance by adjusting th...
Railway crossings are important operational elements in railway infrastructures. The discontinuity i...
A numerical method for robust geometry optimisation of railway crossings is presented. The robustnes...
This paper presents a methodology for improving the crossing (frog) geometry through the robust opti...
A parameter study and grid search optimisation is performed on a parameterised crossing geometry. Cr...
Methods for simulation-based optimisation of the design of railway turnouts (switches & crossings, S...
A series of numerical simulation tools have been developed to predict the kinematic motion of a rail...
Turnouts allow trains to change from one track to another. Therefore, they are an essential part of ...
The paper presents an integrated approach for analysis and improvement of performance of railway cro...
A methodology for simulatingwear, rolling contact fatigue, and plastic deformation for a mixed traff...
In this paper, we present a method for evaluating the performance of railway crossing rails after lo...
The procedure for analyzing turnout crossing performance is developed in this paper. The experimenta...
Proper rail geometry in the crossing part is essential for reducing damages on the nose rail.A numer...
Proper rail geometry in the crossing part is essential for reducing damages on the nose rail. A nume...
The objective of this paper is to design a new system to reduce the risk of derailment at crossings,...