One of the major costs incurred by railway companies is the maintenance of turnouts.This situation occurs because the large dynamic forces between the wheels of a train and the rails of a turnout cause excessive wear, rolling contact fatigue and rapid degradation of other components. A thorough understanding of the dynamic interaction between a train and a turnout could lead to a better design of the corresponding vehicle/track or of the damage mechanisms and subsequently to a smarter maintenance planning. Such an insight can be obtained through a detailed model of the train-turnout interaction. Such models exist in the literature for vehicle-track interaction, but they have some shortcomings when it comes to train-turnout interaction. This...
In recent years, the different transport systems have been largely improved. However, some problems ...
In contrast to standard track, where train-induced vibrations are mainly related to track irregulari...
The development of advanced railway vehicles requires an efficient modelling and simulation of wheel...
One of the major costs incurred by railway companies is the maintenance of turnouts.This situation o...
Two models for simulation of dynamic interaction between train and turnout are developed. The first ...
Railway turnouts (switches and crossings) require more maintenance than other parts of the railway n...
Dynamic train–track interaction is more complex in railway turnouts (switches and crossings) than th...
Dynamic train–track interaction is more complex in railway turnouts (switches & crossings) than on o...
The turnout (Switch & Crossing) is a vital component in railway networks as it provides flexibility ...
Train-track interaction at turnouts is a main issue in the design and maintenance of railway systems...
The paper proposes a mathematical model of train–turnout interaction in the mid-frequency range (0–5...
Train–track interaction at turnouts is a main issue in the design and maintenance of railway systems...
The article deals with wheel-rail contact analysis at railway turnout using a finite element modelli...
The wheel-rail contact is at the core of all research related to vehicle-track interaction. This tin...
Severe wear is a common damage mechanism in railway turnouts, which strongly affects the dynamic per...
In recent years, the different transport systems have been largely improved. However, some problems ...
In contrast to standard track, where train-induced vibrations are mainly related to track irregulari...
The development of advanced railway vehicles requires an efficient modelling and simulation of wheel...
One of the major costs incurred by railway companies is the maintenance of turnouts.This situation o...
Two models for simulation of dynamic interaction between train and turnout are developed. The first ...
Railway turnouts (switches and crossings) require more maintenance than other parts of the railway n...
Dynamic train–track interaction is more complex in railway turnouts (switches and crossings) than th...
Dynamic train–track interaction is more complex in railway turnouts (switches & crossings) than on o...
The turnout (Switch & Crossing) is a vital component in railway networks as it provides flexibility ...
Train-track interaction at turnouts is a main issue in the design and maintenance of railway systems...
The paper proposes a mathematical model of train–turnout interaction in the mid-frequency range (0–5...
Train–track interaction at turnouts is a main issue in the design and maintenance of railway systems...
The article deals with wheel-rail contact analysis at railway turnout using a finite element modelli...
The wheel-rail contact is at the core of all research related to vehicle-track interaction. This tin...
Severe wear is a common damage mechanism in railway turnouts, which strongly affects the dynamic per...
In recent years, the different transport systems have been largely improved. However, some problems ...
In contrast to standard track, where train-induced vibrations are mainly related to track irregulari...
The development of advanced railway vehicles requires an efficient modelling and simulation of wheel...