GENERAL APROACH TO MODELING NONLINEAR AMPLITUDE AND FREQUENCY DEPENDENT HYSTERESIS EFFECTS BASED ON EXPERIMENTAL RESULTS
Abstract
A detailed description of the rubber parts’ properties is gaining in importance in the current simulation models of multi-body simulation. One application example is a multi-body simulation of the washing machine movement. Inside the washing machine, there are different force transmission elements, which consist completely or partly of rubber. Rubber parts or, generally, elastomers usually have amplitude-dependant and frequency-dependent force transmission properties. Rheological models are used to describe these properties. A method for characterization of the amplitude and frequency dependence of such a rheological model is presented within this paper. Within this method, the used rheological model can be reduced or expanded in order to illustrate various non-linear effects. An original result is given with the automated parameter identification. It is fully implemented in Matlab. Such identified rheological models are intended for subsequent implementation in a multi-body model. This allows a significant enhancement of the overall model quality.
Full Text:
PDFReferences
Beerens, C., 1994, Zur Modellierung nichtlinearer Dämpfungsphänomene in der Strukturmechanik, Mitteiliungen aus dem Institut fuer Mechanik, Ruhr-Universität Bochum
Jrad, H., Renaud, F., Dion J.L., Tawfiq, I., Haddar, M., 2013, Experimental characterization, modeling and parametric identification of hysteresis friction behavior of viscoelastic joints, International Journal of Applied Mechanics, 5(2), pp. 1350018-1-21
Lion, A., 2005, Phenomenological Modelling of Strain.Induced Structural Changes in Filler-Reinforced Elastomers, KGK Kautschuk Gummi Kunststoffe, 58(2), pp.157-162
Lou, W., Hu, X., Wang, C., Li, Q., 2010, Frequency- and strain-amplitude-dependent dynamical mechanical properties and hysteresis loss of CB-filled vulcanized natural rubber, International Journal of Mechanical Sciences, 52(2), pp. 168-174
Puel, G., Bourgeteau, B., Aubry, D., 2013, Parameter identification of nonlinear time-dependent rubber bushings models towards their integration in multibody simulations of a vehicle chassis, Mechanical Systems and Signal Processing, 36(2), pp. 354-369.
Pohl, R., Wahle, M., 1999, Entwicklung eines Rechenmodells zur Beschreibung von Gummibauteilen bei statischer und dynamischer Belastung (Simulationsmodell für Gummibauteile): Schlußbericht zum BMBF-Forschungsvorhaben, Fachhochschule Aachen
Waltz, M., 2005, Dynamisches Verhalten von gummigefederten Eisenbahnrädern, PhD dissertation, Fachhochschule Aachen
Refbacks
- There are currently no refbacks.
ISSN: 0354-2025 (Print)
ISSN: 2335-0164 (Online)
COBISS.SR-ID 98732551
ZDB-ID: 2766459-4