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Thermo-mechanical Modeling Of Extended Pin-on-disc System For Studies Of Dynamic Instability And Brake Squeal Prediction
Eurobrake2014/EB2014-SA-025

Authors

Juraj Úradníček, Andrea Suchal - Slovak University of Technology in Bratislava
Jean-Francois Brunel, Philippe Dufrénoy - University of Lille

Abstract

KEYWORDS: friction induced vibration, stability, thermal analysis, complex Eigen value analysis.

ABSTRACT: Paper deals with development of an effective numerical model of a extended pin-on-disc experimental model. This model is designed to simulate thermo-mechanical behavior of the simplified braking system focusing on dissipation of energy, evolution of temperature distribution and evaluation of dynamic instability of the system over time. Mathematical description of the system is done using FEA approach. Commonly used complex Eigen value analysis is extended with thermo-mechanical influence and varying contact distribution to predict system dynamical instability. Influence of generated heat and contact distribution on the system dynamical instability is studied. Model’s credibility is proved through a series of experiments on an experimental test bench.

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