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Simulation of Dynamic Interaction between Train and Turnout

Elias Kassa (Institutionen för tillämpad mekanik)
Göteborg : Chalmers University of Technology, 2004. ISBN: 1650-891220047.- 56 s.

Dynamic train–track interaction is more complex in railway turnouts (switches & crossings) than on ordinary tangent or curved tracks. Multiple contacts between wheel and rail are common, and severe impact loads with broad frequency contents are induced when the nominal wheel–rail contact conditions are disturbed due to the continuous variation in rail profiles and the discontinuities in the crossing panel. The absence of transition curves at the entry and exit of the turnout, and the cant deficiency, lead to large wheel–rail contact forces and passenger discomfort when the train is switching into the turnout track. Two alternative multibody system (MBS) models of dynamic interaction between the train and a standard turnout design are developed. The first model is derived using a commercial MBS software. The second model is based on a multibody dynamics formulation that may account for the structural flexibility of train and track components (based on finite element models and coordinate reduction methods). The variation in rail profile is accounted for by sampling the cross-section of each rail at several positions along the turnout. Contact between the back of the wheel flange and the check rail, when the wheelset is steered through the crossing, is considered. Good agreement between the results from the two models is observed when the track model is taken as rigid.

Nyckelord: dynamic train–turnout interaction, switches and crossings, wheel–rail contact geometry, contact forces, multibody dynamics

Denna post skapades 2007-08-30.
CPL Pubid: 46253


Institutioner (Chalmers)

Institutionen för tillämpad mekanik (1900-2017)


Teknisk mekanik

Chalmers infrastruktur


Datum: 2004-12-16
Tid: 10:00
Lokal: Delta, Hörsalsvägen 7B, Chalmers tekniska högskola
Opponent: Tekn Dr Johan Oscarsson, Interfleet Technology AB

Ingår i serie

Thesis for the degree of licentiate of engineering - Department of Applied Mechanics, Chalmers University of Technology