This paper presents two extensions of Kalker's algorithm Fastsim of the simplified theory of rolling contact. The first extension is for solving tangential contact problems with the coefficient of friction depending on slip velocity. Two friction laws have been considered: with and without recuperation of the static friction. According to the tribological hypothesis for metallic bodies shear failure, the friction law without recuperation of static friction is more suitable for wheel and rail than the other one. Sample results present local quantities inside the contact area (division to slip and adhesion, traction) as well as global ones (creep forces as functions of ereepages and rolling velocity). For the coefficient of friction diminishing with slip, the creep forces decay after reaching the maximum and they depend on the rolling velocity. The second extension is for solving tangential contact problems with friction anisotropy characterised by a convex set of the permissible tangential tractions. The effect of the anisotropy has been shown on examples of rolling without spin and in the presence of pure spin for the elliptical set. The friction anisotropy influences tangential tractions and creep forces. Sample results present local and global quantities. Both extensions have been described with the same language of formulation and they may be merged into one, joint algorithm.
Kalker's algorithm Fastsim solves tangential contact problems with slip-dependent friction and friction anisotropy
Lösung tangentieller Kontaktprobleme mit schlupfabhängiger Reibung und Reibungsanisotropie durch Kalkers Fastsim-Algorithmus
Vehicle System Dynamics ; 48 , 7 ; 869-889
2010
21 Seiten, 22 Bilder, 16 Quellen
Aufsatz (Zeitschrift)
Englisch
Taylor & Francis Verlag | 2010
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