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Sound-Insulation Layers Low-Frequency Modeling, Using the Fuzzy Structure Theory
Technical Paper
2009-01-2221
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
Over the past few years, car manufacturers have improved their numerical models for the prediction of the trimmed body vibroacoustic response. In the low-frequency band [20, 200] Hz, sound-insulation layer modeling remains a critical topic. Recent work allows the connection of the structure and cavity through a transfer matrix computed from a FE model of the sound-insulation layer. Nevertheless, such an approach requires a FE model of sound-insulation layer, which may not be available in early design stages. Moreover, considering the uncertainty of the design itself, in addition to material uncertainty, a deterministic model may not be appropriate. In this paper, a simplified model of sound-insulation layers based on the fuzzy structure theory is proposed. The simplified model is obtained by performing a statistical averaging of the internal dynamical degrees of freedom of the sound-insulation layer and is governed by three parameters: the modal density, the coefficient of participating mass and the damping rate of the sound-insulation layer. In order to improve the prediction, the model errors introduced by the simplifications as well as material properties uncertainty are modeled using a nonparametric probabilistic approach. After the fuzzy model is set up theoretically, it is applied to a simplified case. The way how the fuzzy model's parameters are related to design parameters will then be discussed. Finally, the application to a full trimmed body is presented.
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Citation
Gagliardini, L., Fernandez, C., and Soize, C., "Sound-Insulation Layers Low-Frequency Modeling, Using the Fuzzy Structure Theory," SAE Technical Paper 2009-01-2221, 2009, https://doi.org/10.4271/2009-01-2221.Also In
References
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