Add to ORKGImpact loads caused by flat spots on railcar wheels impose a major maintenance burden on railroads and can cause severe damage to both railcar and rail track components. In addition, the increasing tractive power of locomotives leads to significant increase in the longitudinal load demand in railway tracks. The capacity of longitudinal restraint of existing rail fastening system and its dependency on track parameters affects the future design of rail fastening system. This thesis focuses on investigating numerically these two problems using finite element (FE) method. An FE model with multiple crossties and their accompanying fastening systems is developed and utilized in this study after being validated using field data. The results of the...
US railways move more freight (measured in tonne-kms) by rail than by any other means. This is done...
The goal of this research is to investigate the effects of axle load and train speed at rail joint. ...
It is a challenge to efficiently and accurately predict train dynamic responses during complex colli...
Impact loads caused by flat spots on railcar wheels impose a major maintenance burden on railroads a...
The objective of this dissertation is to further investigate the performance of concrete crosstie an...
Wheel–rail interaction is one of the most important research topics in railway engineering. It invol...
Broken rails or welds are the main causes of derailment in railway networks. Therefore, a wheel-rail...
Increased railroad traffic volumes, speeds, and axle loads have created a need to better measure tra...
Wheel-rail interaction is one of the most important research topics in railway engineering. It inclu...
Wheel flats are the sources of high magnitude impact forces at the wheel-rail interface, which can i...
The discontinuities in surface profiles of railway wheels, commonly known as wheel flats, are known ...
A comprehensive finite element (FE) model of railway vehicle-track system is developed to study the ...
An understanding of the load path is necessary for developing a mechanistic design approach for the ...
The wheel-rail interaction problem has been widely studied in the past few decades. In this problem,...
The increased presence of instrumentation on railroad track components in revenue service operation ...
US railways move more freight (measured in tonne-kms) by rail than by any other means. This is done...
The goal of this research is to investigate the effects of axle load and train speed at rail joint. ...
It is a challenge to efficiently and accurately predict train dynamic responses during complex colli...
Impact loads caused by flat spots on railcar wheels impose a major maintenance burden on railroads a...
The objective of this dissertation is to further investigate the performance of concrete crosstie an...
Wheel–rail interaction is one of the most important research topics in railway engineering. It invol...
Broken rails or welds are the main causes of derailment in railway networks. Therefore, a wheel-rail...
Increased railroad traffic volumes, speeds, and axle loads have created a need to better measure tra...
Wheel-rail interaction is one of the most important research topics in railway engineering. It inclu...
Wheel flats are the sources of high magnitude impact forces at the wheel-rail interface, which can i...
The discontinuities in surface profiles of railway wheels, commonly known as wheel flats, are known ...
A comprehensive finite element (FE) model of railway vehicle-track system is developed to study the ...
An understanding of the load path is necessary for developing a mechanistic design approach for the ...
The wheel-rail interaction problem has been widely studied in the past few decades. In this problem,...
The increased presence of instrumentation on railroad track components in revenue service operation ...
US railways move more freight (measured in tonne-kms) by rail than by any other means. This is done...
The goal of this research is to investigate the effects of axle load and train speed at rail joint. ...
It is a challenge to efficiently and accurately predict train dynamic responses during complex colli...