2018
DOI: 10.3390/app8010037
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Parameter Determination of a Minimal Model for Brake Squeal

Abstract: Abstract:In the research into the mechanism of brake squeal, minimal models with two degrees of freedom (DoFs) are widely used. Compared with the finite element method, the minimal model is more concise and efficient, making it easier to analyze the effect of parameters. However, how to accurately determine its kinetic parameters is rarely reported in the literature. In this paper, firstly, the finite element model of a disc brake is established and the complex eigenvalue analysis (CEA) is carried out to obtai… Show more

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Cited by 9 publications
(6 citation statements)
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References 31 publications
(29 reference statements)
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“…The RSM consists of mathematical and statistical techniques that originated from a graphical perspective that Box et al [50] generated in the early 1950s. Researchers in a wide variety of science and industry fields have utilized it [51][52][53]. In this method, the volume of input parameters is fitted by experimental data, called DOE.…”
Section: Response Surface Methodsmentioning
confidence: 99%
“…The RSM consists of mathematical and statistical techniques that originated from a graphical perspective that Box et al [50] generated in the early 1950s. Researchers in a wide variety of science and industry fields have utilized it [51][52][53]. In this method, the volume of input parameters is fitted by experimental data, called DOE.…”
Section: Response Surface Methodsmentioning
confidence: 99%
“…[37][38][39] The stiction region is immediately followed by the stick-slip (indicated by the transition from stage II to stage III) region (i.e. the negative slope of the μ-level also termed as velocity weakening 40 ). Above the critical velocity of V c , the stick-slip transforms into mixed oscillation (indicated by the transformation from stage III to stage IV and theoretically signifying the combination of smooth sliding and friction oscillation.…”
Section: Stick-slip Analysismentioning
confidence: 99%
“…Large values were obtained for shape parameters a, b, d, and e and a value of 1.313 was obtained for c. Insertion force and separation force were predicted as 62.46 N and 76.98, respectively. Figure 9 is an optimization graph that shows insertion force and separation force according to the values of each shape parameter obtained using the response surface optimization [23].…”
Section: Derivation Of Optimal Shape Parametersmentioning
confidence: 99%