Abstract
After a brief introduction about aerodynamic noise generation and transmission mechanisms, the influence of crosswind to vehicle interior aerodynamic noise for a production automobile sedan was investigated through full-scale aeroacoustic wind tunnel tests. Through analysis of sound pressure level of vehicle interior driver ear position and pressure fluctuation level on vehicle side window glass under different yaw angles, the following results are obtained: The frequency characteristics of vehicle interior aerodynamic noise vary as yaw angle changes under one certain wind speed. Whether on the leeside or by windward, sound pressure level increases as yaw angle goes up. Under the same yaw angle, interior noise level on the leeside is higher than that by windward. Test results between pressure fluctuation level on side window glass and vehicle interior aerodynamic noise of driver ear position show good correlation
Publisher
Trans Tech Publications, Ltd.
Reference8 articles.
1. A.R. George: Automobile Aerodynamic Noise, SAE 900315 (1990).
2. S.R. Ahmed: A Survey of Automobile Aeroacoustic Activities in Germany, SAE 950623 (1995).
3. W.B. Coney, J.Y. Her, K. Tomaszewicz, K.Y. Zhang and J.A. Moore: Experimental Evaluation of Wind Noise Sources: A Case Study, SAE 1999-01-1812 (1999).
4. W.B. Coney, M. Moeller and J. Moore: Experimental Characterization of Wind Noise Excitation and Transmission using a Production Automobile, NCA-Vol. 19/FED-Vol. 230, Flow Noise Modeling, Measurement and Control, ASME, (1995).
5. B. Khalighi, J.P. James, K.H. Chen and R.G. Lee: Experimental Characterization of the Unsteady Flow Field Behind Two Outside Rear View Mirrors, SAE 2008-01-0476 (2008).
Cited by
1 articles.
订阅此论文施引文献
订阅此论文施引文献,注册后可以免费订阅5篇论文的施引文献,订阅后可以查看论文全部施引文献