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(1994)
Modelling of raiway vehicles using elastic contact and moveable track, [in
(1989)
On generalization of Mathews’ problem of the vibration of a beam on elastic foundation, Z.angew
(2002)
Numerical methods for evolving manifolds, and applications in rail-wheel contact mechanics, [in
(2001)
Computer Simulation of slip wave generation
Z. Kowalska (2008)
Vibro-impacts induced by irregular rolling surfaces of railway rails and wheelsJournal of Theoretical and Applied Mechanics, 46
K. Frischmuth (2000)
Wear Models with Internal ParametersMachine Dynamics Problems
(2005)
Friction, wear and heat, [in:] L
K. Frischmuth (2001)
Contact, motion and wear in railway mechanicsJournal of Theoretical and Applied Mechanics, 39
K. Frischmuth (1996)
On a numerical solution of rail-wheel contact problemsJournal of Theoretical and Applied Mechanics, 34
R. Bogacz, T. Krzyýśki, K. Popp (1989)
On the Generalization of Mathews' Problem of the Vibrations of a Beam on Elastic FoundationZamm-zeitschrift Fur Angewandte Mathematik Und Mechanik, 69
(1995)
Regularization methods for non-smooth dynamical problems
(2006)
Models of surface pattern development in rolling contact
(2002)
Simulation of wheelset in curved track
R. Bogacz, Z. Kowalska (2001)
Computer simulation of the interaction between a wheel and a corrugated railEuropean Journal of Mechanics A-solids, 20
K. Frischmuth, R. Bogacz (2001)
Slip Waves on Curved TrackMachine Dynamics Problems
R. Bogacz, K. Frischmuth (2009)
Vibration in sets of beams and plates induced by traveling loadsArchive of Applied Mechanics, 79
M. Arnold, K. Frischmuth (1998)
Solving problems with unilateral constraints by DAE methodsMathematics and Computers in Simulation, 47
K. Frischmuth (2000)
Wear models with internal state parametersMachine Dynamics Problems, 24
K. Frischmuth, D. Langemann (2003)
Distributed Numerical Calculations of Wear in the Wheel-Rail Contact
On Some Corrugation Related Dynamical Problems of Wheel/Rail Interaction We simulate the motion of a corrugated disk over a corrugated track under unilateral elastic contact forces. In particular, the trajectory of the geometrical contact point and the magnitude of normal forces are studied. Effects like generation of waves and cumulation of plastic deformation are considered.
Archives of Transport – de Gruyter
Published: Mar 1, 2010
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