2008
DOI: 10.1243/09544070jauto592
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Brake squeal control with shunted piezoceramics — efficient modelling and experiments

Abstract: Due to increased interest in comfort features, considerable effort has been spent on the modification of brake prototypes in order to suppress brake squeal. Recently, piezoelectric transducers have been investigated as an innovative way of controlling the vibrations of a brake. This paper presents an efficient mechanical model for the description of a brake with embedded transducers. Different control strategies are discussed and compared. Measurements on a brake test rig validate the obtained results.

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Cited by 14 publications
(10 citation statements)
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“…The differences between the simply supported-free model and the measured resonant frequencies are smaller. Neubauer and Oleskiewicz [26] model a brake disc using clamped, simply supported and free inner boundary conditions. It is noted in [26] that by tuning the height of the model, for the specific design of brake under investigation, the simply supported inner boundary provides the closest agreement to the measured resonant frequencies over the frequency range of interest.…”
Section: Standard Production Brake Disc Versus Cyclosymmetricmentioning
confidence: 99%
See 1 more Smart Citation
“…The differences between the simply supported-free model and the measured resonant frequencies are smaller. Neubauer and Oleskiewicz [26] model a brake disc using clamped, simply supported and free inner boundary conditions. It is noted in [26] that by tuning the height of the model, for the specific design of brake under investigation, the simply supported inner boundary provides the closest agreement to the measured resonant frequencies over the frequency range of interest.…”
Section: Standard Production Brake Disc Versus Cyclosymmetricmentioning
confidence: 99%
“…Neubauer and Oleskiewicz [26] model a brake disc using clamped, simply supported and free inner boundary conditions. It is noted in [26] that by tuning the height of the model, for the specific design of brake under investigation, the simply supported inner boundary provides the closest agreement to the measured resonant frequencies over the frequency range of interest. The closest agreement with the measured resonant frequencies of the disc shown in Table 4 is with the natural frequencies predicted by the spring supported-free model.…”
Section: Standard Production Brake Disc Versus Cyclosymmetricmentioning
confidence: 99%
“…Along with the rising requirement of comfort in the field of civil aviation, brake noise problem has gained great attention because it considerably affects passengers' convenience [1][2][3]. Aircraft brake system generates vibration during its normal working process, followed by noise inevitably.…”
Section: Introductionmentioning
confidence: 99%
“…Self-excited vibrations are found in many applications, causing comfort, functional, performance, or reliability problems like brake squeal [3][4][5], chatter vibration in metal machining [6,7], and curve squealing of trains [8]. Aerodynamic flutter instabilities are also caused by a self-excitation mechanism.…”
Section: Introductionmentioning
confidence: 99%