CAR2017 International Congress of Automotive and Transport Engineering - Mobility Engineering and Environment | |
Wheel liner design for improved sound and structural performances | |
工业技术;运输工程 | |
Oltean, Alexandru^1 ; Diaconescu, Claudiu^1 ; Tabacu, Stefan^2 | |
ALSECA Engineering, Romania^1 | |
University of Pitesti, Romania^2 | |
关键词: Materials structure; Microcellular structures; Moulding technology; Nonwoven materials; Production process; Sound absorption; Sound absorption characteristic; Structural performance; | |
Others : https://iopscience.iop.org/article/10.1088/1757-899X/252/1/012042/pdf DOI : 10.1088/1757-899X/252/1/012042 |
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学科分类:工业工程学 | |
来源: IOP | |
【 摘 要 】
Vehicle noise is composed mainly of wheel-road noise and noise from the power unit. At low speeds power unit noise dominates while at high speeds wheel-road noise dominates as wheel-road noise level increases approximately logarithmically with speed. The wheel liner is designed as a component of the vehicle that has a multiple role. It has to prevent the dirt or water from the road surface that are engaged by the wheel to access the engine/front bay. Same time it has the important role to reduce perceived noised in the passenger's compartment that comes from the wheel-road interaction. Progress in plastic injection moulding technology allowed for new structures to be developed - nonwoven materials in combination with a PP based carrier structure which benefits from a cell structure caused by MuCell injection moulding. The results are light parts with increased sound absorption performances. An adapted combination of materials and production processes can provide the solution for stiff yet soundproofing structures valued for modern vehicles. Sound absorption characteristics of materials used for wheel liners applications were reported in this study. Different polypropylene and polyester fibre-based thermally bonded nonwovens varying in weight and thickness were investigated. Having as a background the performances of the nonwoven material the microcellular structure was part of the analysis. Acoustical absorptive behaviour was explained by analysing the results obtained using the impedance tube and correlating with the knowledge of materials structure.
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