Datenbestand vom 21. April 2021
Tel: 089 / 66060798
Mo - Fr, 9 - 12 Uhr
Fax: 089 / 66060799
aktualisiert am 21. April 2021
978-3-8439-2799-4, Reihe Ingenieurwissenschaften
Validation of a Pushbelt Variator Model – Insights into a non-smooth Multibody System
131 Seiten, Dissertation Technische Universität München (2015), Softcover, A5
Continuously variable transmissions are an ideal solution for modern car concepts.
For the efficient simulation of the whole model the dynamics of its parts, their interactions and the numerical treatment are discussed. New models for the ring dynamics and for the contact between curved sheaves and curved element flanks, an identification method for the element’s longitudinal contact stiffness, a physical based tracking law as well as methods for computing time reduction improve and enhance the system.
The discussion of numerical aspects covers the number of simulated elements, the usage of non-smooth dynamics and a comparison of different ring models. The chapter physical aspects covers parameter uncertainties, especially the contact parameters for geometry, stiffness and friction.
Overall the validation demonstrates the applicability of the model for well identified parameters for stationary and instationary phenomena and its fit - qualitatively as well as quantitatively.