Colin Cole scite author profile

Longer and heavier trains mean larger in-train forces and more complicated force patterns. Practical experience indicates that the development of fatigue failure of coupling systems in long heavy trains may differ from conventional understanding. The friction-type draft gears are the most widely used draft gears. The ever developing heavy haul transport environment requires further or new understanding of friction draft gear behaviour and its implications for train dynamics as well as fatigue damage of rolling stock. However, modelling of friction draft gears is a highly nonlinear question. Especially the poor predictability, repeatability and the discontinuity of friction make this task more challenging. This article reviews current techniques in dynamics modelling of friction draft gears to provide a starting point that can be used to improve existing or develop new models to achieve more accurate force amplitude and pattern predictions.

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Freight train air brake models

Cole

Spiryagin

et al. 2021

International Journal of Rail Transportation

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Design and Simulation of Heavy Haul Locomotives and Trains

Spiryagin¹,

Wolfs²,

Cole³

et al. 2016

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Colin Cole

An overview: modern techniques for railway vehicle on-board health monitoring systems

Longitudinal train dynamics: an overview

Modelling, simulation and applications of longitudinal train dynamics

Onboard Condition Monitoring Sensors, Systems and Techniques for Freight Railway Vehicles: A Review

Creep force modelling for rail traction vehicles based on the Fastsim algorithm

A review of dynamics modelling of friction draft gear

Freight train air brake models

Design and Simulation of Heavy Haul Locomotives and Trains

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