In contrast to standard track, where train-induced vibrations are mainly related to track irregularities, the dynamic response of turnouts is dominated by the nonuniform geometry of wheel-rail contact and variations in track flexibility. Such peculiarities are responsible for the development of strong vibrations during train passage. At the point of rail intersection (heart), where a gap is unavoidable to provide the necessary wheel flange clearance, the system is subjected to severe impact loading, critical for the design and maintenance of railway tracks. Especially in the case of urban turnouts, the vibration levels are also directly related to the exerted noise nuisance. This paper presents two analysis methods to simulate train-turnout...
The paper proposes a mathematical model of train–turnout interaction in the mid-frequency range (0–5...
In recent years, the different transport systems have been largely improved. However, some problems ...
One of the major costs incurred by railway companies is the maintenance of turnouts.This situation o...
In contrast to standard track, where train-induced vibrations are mainly related to track irregulari...
In contrast to standard track, where train-induced vibrations are mainly related to track irregulari...
Train-track interaction at turnouts is a main issue in the design and maintenance of railway systems...
Train–track interaction at turnouts is a main issue in the design and maintenance of railway systems...
Railway-induced ground vibrations can cause negative effects to people/structures located in urban a...
Dynamic train–track interaction is more complex in railway turnouts (switches and crossings) than th...
With the development of light rail transit in urban areas, the effect of railway vibrations on build...
Rapid growth in railway infrastructure has led to numerous environmental technical challenges. This ...
Two models for simulation of dynamic interaction between train and turnout are developed. The first ...
Dynamic train–track interaction is more complex in railway turnouts (switches & crossings) than on o...
A common source of railway-induced ground vibrations is local defects such as rail joints, switches,...
The paper proposes a mathematical model of train–turnout interaction in the mid-frequency range (0–5...
In recent years, the different transport systems have been largely improved. However, some problems ...
One of the major costs incurred by railway companies is the maintenance of turnouts.This situation o...
In contrast to standard track, where train-induced vibrations are mainly related to track irregulari...
In contrast to standard track, where train-induced vibrations are mainly related to track irregulari...
Train-track interaction at turnouts is a main issue in the design and maintenance of railway systems...
Train–track interaction at turnouts is a main issue in the design and maintenance of railway systems...
Railway-induced ground vibrations can cause negative effects to people/structures located in urban a...
Dynamic train–track interaction is more complex in railway turnouts (switches and crossings) than th...
With the development of light rail transit in urban areas, the effect of railway vibrations on build...
Rapid growth in railway infrastructure has led to numerous environmental technical challenges. This ...
Two models for simulation of dynamic interaction between train and turnout are developed. The first ...
Dynamic train–track interaction is more complex in railway turnouts (switches & crossings) than on o...
A common source of railway-induced ground vibrations is local defects such as rail joints, switches,...
The paper proposes a mathematical model of train–turnout interaction in the mid-frequency range (0–5...
In recent years, the different transport systems have been largely improved. However, some problems ...
One of the major costs incurred by railway companies is the maintenance of turnouts.This situation o...