Add to ORKGA time domain wheel/rail interaction model in the vertical direction is developed taking account of surface defects. This model consists of a wheel moving over a finite element track model with a detailed non-Hertzian contact model. This numerical non-Hertzian contact model is either used for roughness pre-processing or is directly applied in combination with dynamic interaction calculations at each time step as the wheel moves along the rail. A non-reflecting boundary condition for the finite length track model is developed using a damped tapered tip. It is shown that the modal size of the track model is reduced by applying this damped tapered tip compared to traditional boundary conditions. The time domain wheel/rail interaction model is ...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
A time-domain model for the prediction of long-term rail roughness growth on small radius curves is ...
The prediction of impact forces caused by wheel flats requires the application of time-domain models...
Railway impact noise is caused by discrete rail or wheel irregularities, such as wheel flats, rail j...
The prediction of impact forces caused by wheel flats requires the application of time-domain models...
The interaction between wheel and rail is the predominant source of noise emission from railway oper...
This paper presents results from simulations of railhead wear due to initial sinusoidal and broad-ba...
This paper presents results from simulations of railhead wear due to initial sinusoidal and broad-ba...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
Rolling noise is excited by the roughness of the wheel/rail running surfaces. The contact patch acts...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
\u3cp\u3eA state-dependent contact model including nonlinear contact stiffness and nonlinear contact...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
A time-domain model for the prediction of long-term rail roughness growth on small radius curves is ...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
A time-domain model for the prediction of long-term rail roughness growth on small radius curves is ...
The prediction of impact forces caused by wheel flats requires the application of time-domain models...
Railway impact noise is caused by discrete rail or wheel irregularities, such as wheel flats, rail j...
The prediction of impact forces caused by wheel flats requires the application of time-domain models...
The interaction between wheel and rail is the predominant source of noise emission from railway oper...
This paper presents results from simulations of railhead wear due to initial sinusoidal and broad-ba...
This paper presents results from simulations of railhead wear due to initial sinusoidal and broad-ba...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
Rolling noise is excited by the roughness of the wheel/rail running surfaces. The contact patch acts...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
\u3cp\u3eA state-dependent contact model including nonlinear contact stiffness and nonlinear contact...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
A time-domain model for the prediction of long-term rail roughness growth on small radius curves is ...
A state-dependent contact model including nonlinear contact stiffness and nonlinear contact filterin...
A time-domain model for the prediction of long-term rail roughness growth on small radius curves is ...
The prediction of impact forces caused by wheel flats requires the application of time-domain models...