Experimentally determined creep curves for rolling–sliding contact in lubricated conditions are found to deviate greatly from the standard theory for two-body contact. This article presents a new model to represent coefficient of adhesion (also known as traction coefficient) and creep based on experimental data gathered for a range of railway rail–wheel contact conditions. The model developed is based on a two-dimensional elastic foundation representation of a twin disc contact. This is used to quantify the creep curves in a similar manner to existing models of three-dimensional real rail–wheel contacts undergoing partial slip for a range of lubrication conditions. The work focuses on very low levels of creep, ranging from 0 to 1%, and lubr...
Numerical and experimental investigation on adhesion characteristic of wheel/rail under the third bo...
Areas of extremely low adhesion between the wheel and rail can cause critical problems in traction a...
The traction performance of a locomotive under real operational conditions is strongly dependent on ...
Experimentally determined creep curves for rolling-sliding contact in lubricated conditions are foun...
Predictive modelling of wear and adhesion at rolling-sliding contacts such as a railway rail and whe...
A computationally efficient engineering model to predict adhesion in rolling contact in the presence...
Through a range of increasingly featured models of wheel-rail contact, vehicles and track it is poss...
Rolling contact fatigue (RCF) is the dominant degradation mode of wheels and rails in the railway se...
The wheel–rail contact problem plays an important role in the simulation methods used to solve railw...
In the autumn, railroad traffic is often interrupted due to the occurrence of slippery tracks. The D...
The concept of adhesion in the field of rail transport represents an ability of tractive force trans...
[EN] The wheel rail contact problem plays an important role in the simulation methods used to solve ...
The coefficient of friction between a wheel tread and the top of the rail should be maintained at in...
The adhesion (or available friction) in the wheel–rail contact is the most important parameter for t...
In the autumn, railroad traffic is often interrupted due to the occurrence of slippery tracks. The D...
Numerical and experimental investigation on adhesion characteristic of wheel/rail under the third bo...
Areas of extremely low adhesion between the wheel and rail can cause critical problems in traction a...
The traction performance of a locomotive under real operational conditions is strongly dependent on ...
Experimentally determined creep curves for rolling-sliding contact in lubricated conditions are foun...
Predictive modelling of wear and adhesion at rolling-sliding contacts such as a railway rail and whe...
A computationally efficient engineering model to predict adhesion in rolling contact in the presence...
Through a range of increasingly featured models of wheel-rail contact, vehicles and track it is poss...
Rolling contact fatigue (RCF) is the dominant degradation mode of wheels and rails in the railway se...
The wheel–rail contact problem plays an important role in the simulation methods used to solve railw...
In the autumn, railroad traffic is often interrupted due to the occurrence of slippery tracks. The D...
The concept of adhesion in the field of rail transport represents an ability of tractive force trans...
[EN] The wheel rail contact problem plays an important role in the simulation methods used to solve ...
The coefficient of friction between a wheel tread and the top of the rail should be maintained at in...
The adhesion (or available friction) in the wheel–rail contact is the most important parameter for t...
In the autumn, railroad traffic is often interrupted due to the occurrence of slippery tracks. The D...
Numerical and experimental investigation on adhesion characteristic of wheel/rail under the third bo...
Areas of extremely low adhesion between the wheel and rail can cause critical problems in traction a...
The traction performance of a locomotive under real operational conditions is strongly dependent on ...