Experimental Investigation of Self-Excited Squeal 892451
The squeal noise generated during the dry friction between a friction pad and a rotating disc, changes its inherent form (i.e. its sound pressure level and its frequency) with the normal load and sliding speed. The present study is based on the establishement of squeal regime for a relatively long time period (from ½ to 5 hours in a continuous manner) and then to accomplish the analysis of generated signals. The different properties existing in such signals are thoroughly investigated using an experimental setup simulating the disc brake assembly. The results indicate that sound pressure level of squeal noise is greatly reduced by increasing the system rigidity in normal direction of contact. Moreover, inaudible squeal is investigated at great values of system rigidity. The effect of contact stiffness on the establishement of squeal regime at a particular frequency, is observed. A simple technic is proposed to estimate the dynamic contact stiffness value. It is also found that normal load has a significant effect on the sound pressure level of the peaks in the sound spectrum and the frequencies of these peaks.
Citation: Sherif, H., Blouet, J., Cretegny, J., Gras, R. et al., "Experimental Investigation of Self-Excited Squeal," SAE Technical Paper 892451, 1989, https://doi.org/10.4271/892451. Download Citation
Author(s):
Hany Ali Sherif, Jean Blouet, Jean Francois Cretegny, Rene Gras, Serge Vialard
Affiliated:
Department of Mechanics & Elasticity Military Technical College Egypt, Laboratory of Tribology Institut Superieur des Materiaux et de la Construction Mecanique, France, Laboratory of Vibrations and DynamicsInstitut Superieur des Materiaux et de la ConstructionMecanique, France
Pages: 12
Event:
7th Annual Colloquium on Brakes and Educational Display
ISSN:
0148-7191
e-ISSN:
2688-3627
Also in:
SAE Transactions Journal of Passenger Cars-V98-6
Related Topics:
Disc brakes
Noise
Assembling
Pressure
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