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The University of Southampton
Engineering

What kind of friction model is needed to predict brake squeal? Seminar

Time:
16:00
Date:
6 November 2012
Venue:
Building 13 Room 3017 Highfield campus

For more information regarding this seminar, please telephone Natasha Webb on +44 (0)23 8059 2294 or email N.Webb@soton.ac.uk .

Event details

ISVR Engineering Research Seminar Series

Predictive models of friction-induced vibration have proved elusive despite decades of research. There are many mechanisms that can cause brake squeal; friction coupled systems can be highly sensitive to small perturbations; and the dynamic properties of friction at the contact zone seem to be poorly understood. Experimental and theoretical work will be presented that aims to identify the key ingredients of a predictive model. A large-scale experiment was carried out to identify squeal initiations using a pin-on-disc test rig: approximately 30,000 squeal initiations were recorded, covering a very wide range of frequencies. The theoretical model allows for completely general linear systems coupled at a single sliding point by friction: squeal is predicted using a linearised stability analysis. Results will be presented that show that almost all observed squeal events can be predicted within this model framework, but that some subsets require innovative friction modelling: predictions are highly dependent on the particular choice of friction model and its associated parameters.

Speaker information

Dr Tore Butlin , University of Cambridge . Dr Butlin is a Research Assistant in the Dynamics and Vibration group’s Information Engineering Division. He completed his PhD at Cambridge in 2007 and his research interests lie in the vibration of complex structures with localised non-linearities; sensitivity and uncertainty in complex structures; dynamics and control of oilwell drills and friction-induced vibration.

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