The estimation of traction for real locomotives is a quite complex task and is commonly performed by means of numerical studies. The results obtained in such investigations are fully dependent on the contacting modelling approaches used to describe processes under traction at the wheel-rail interface. This paper focuses on analyses of simulation results delivered with implementation of the modified Fastsim and Extended CONTACT algorithms for the calculation of creep forces. An actual operation of high adhesion locomotives in heavy haul train configuration has been chosen for the comparison of the algorithms, and advanced simulation techniques that include longitudinal train and multibody dynamics have been used to explore differences in loc...
The understanding of adhesion processes at the wheel-rail interface is a key issue for heavy haul op...
The design and validation of a locomotive adhesion control system is a very complex multi-disciplina...
Locomotive-track interaction is a multidimensional task because it goes in many directions depending...
The evaluation of creep forces is a complex task and their calculation is a time-consuming process f...
Recent locomotive traction studies have been extensively focused on the development of wheel-rail co...
This paper presents five locomotive traction models for the purpose of train dynamics simulations, s...
This paper presents a comparison of four models of rolling contact used for online contact force eva...
© 2015 Taylor & Francis. Improving tractive effort is a very complex task in locomotive design. It...
The analysis of hybrid traction with its application to heavy haul application tasks is a very compl...
To represent thewheel-rail contact in numerical simulations of rail vehicles, simplified models (Fas...
This thesis presents a methodology for modelling locomotives as complex mechatronic systems so that ...
The development of improved traction control and adoption of AC traction motors has led to the devel...
Cole, CR ORCiD: 0000-0001-8840-7136; Spiryagin, M ORCiD: 0000-0003-1197-898X; Wu, Q ORCiD: 0000-0001...
The Kalker book of tables for non-Hertzian contact described in a previous work from the authors pro...
The main task for heavy haul railway operators is to reduce the cost of exported minerals and enhanc...
The understanding of adhesion processes at the wheel-rail interface is a key issue for heavy haul op...
The design and validation of a locomotive adhesion control system is a very complex multi-disciplina...
Locomotive-track interaction is a multidimensional task because it goes in many directions depending...
The evaluation of creep forces is a complex task and their calculation is a time-consuming process f...
Recent locomotive traction studies have been extensively focused on the development of wheel-rail co...
This paper presents five locomotive traction models for the purpose of train dynamics simulations, s...
This paper presents a comparison of four models of rolling contact used for online contact force eva...
© 2015 Taylor & Francis. Improving tractive effort is a very complex task in locomotive design. It...
The analysis of hybrid traction with its application to heavy haul application tasks is a very compl...
To represent thewheel-rail contact in numerical simulations of rail vehicles, simplified models (Fas...
This thesis presents a methodology for modelling locomotives as complex mechatronic systems so that ...
The development of improved traction control and adoption of AC traction motors has led to the devel...
Cole, CR ORCiD: 0000-0001-8840-7136; Spiryagin, M ORCiD: 0000-0003-1197-898X; Wu, Q ORCiD: 0000-0001...
The Kalker book of tables for non-Hertzian contact described in a previous work from the authors pro...
The main task for heavy haul railway operators is to reduce the cost of exported minerals and enhanc...
The understanding of adhesion processes at the wheel-rail interface is a key issue for heavy haul op...
The design and validation of a locomotive adhesion control system is a very complex multi-disciplina...
Locomotive-track interaction is a multidimensional task because it goes in many directions depending...