It is well known that wheel wear degrades the dynamic performance of the rail vehicles, especially in regard to the issue customarily known as ‘running stability’ and resulting in the evaluation of the vehicle’s critical speed. Past research addressed this problem mainly from the viewpoint of the influence on the vehicle performance of the wear pattern. The aim of this work is to investigate the influence of individual wheel profiles measured on a rail vehicle on the vehicle’s dynamics in the context of multibody (MB) simulations. The EN14363-based method, bifurcation map and the decreasing speed approach were implemented, and two new criteria were proposed based on the bifurcation map and decreasing speed schemes. Six methods were compared...
The stability assessment is an important task in the mechanical design of railway vehicles. For a de...
This work describes an analytical approach to determine what degree of accuracy is required in the d...
Wheel and rail wear is a fundamental problem in the railway field: the change of profile shape deepl...
It is well known that wheel wear degrades the dynamic performance of the rail vehicles, especially i...
Numerical procedures for reliable wheel and rail wear prediction are rare. Recent development of sim...
During the last decade, a novel methodology for wheel wear simulation has been developed in Sweden. ...
The numerical wheel wear prediction in railway applications is of great importance for different asp...
The wear of rails and wheels is important problem in rail traffic. The change of the shape of the wh...
This study compares the performance influences for four kinds of tread contour features commonly use...
Current maintenance criteria of railway wheel geometries consider mainly flange thickness, flange he...
Numerical procedures for reliable wheel and rail wearprediction are rare. Recent development of simu...
The wear of rails and wheels is important problem in rail traffic. The change of the shape of the wh...
The rights-of-way of urban railway systems contain many sharp curves. Since sharp curves can contrib...
The prediction of the wear at the wheel–rail interface is a fundamental problem in the railway field...
The stability assessment is an important task in the mechanical design of railway vehicles. For a de...
This work describes an analytical approach to determine what degree of accuracy is required in the d...
Wheel and rail wear is a fundamental problem in the railway field: the change of profile shape deepl...
It is well known that wheel wear degrades the dynamic performance of the rail vehicles, especially i...
Numerical procedures for reliable wheel and rail wear prediction are rare. Recent development of sim...
During the last decade, a novel methodology for wheel wear simulation has been developed in Sweden. ...
The numerical wheel wear prediction in railway applications is of great importance for different asp...
The wear of rails and wheels is important problem in rail traffic. The change of the shape of the wh...
This study compares the performance influences for four kinds of tread contour features commonly use...
Current maintenance criteria of railway wheel geometries consider mainly flange thickness, flange he...
Numerical procedures for reliable wheel and rail wearprediction are rare. Recent development of simu...
The wear of rails and wheels is important problem in rail traffic. The change of the shape of the wh...
The rights-of-way of urban railway systems contain many sharp curves. Since sharp curves can contrib...
The prediction of the wear at the wheel–rail interface is a fundamental problem in the railway field...
The stability assessment is an important task in the mechanical design of railway vehicles. For a de...
This work describes an analytical approach to determine what degree of accuracy is required in the d...
Wheel and rail wear is a fundamental problem in the railway field: the change of profile shape deepl...