Identification of vibration excitations from acoustic measurements using near field acoustic holography and the force analysis technique
- 作者:C. Pé ; zerat ; Q. Leclè ; re ; N. Totaro ; M. Pachebat
- 刊名:Journal of Sound and Vibration
- 出版年:2009
- 期刊代码:91_0022460x
- 类别:ph
- 出版时间:9 October 2009
- 卷:326
- 期:3-5
- 页码:540-556
- 文件大小:1038 K
摘要
This study presents a method of using acoustic holography and the force analysis technique to identify vibration sources from radiated noise measurements. The structure studied is a plate excited by a shaker on which three measurements were performed: the first is a reference measurement of plate velocity obtained by scanning laser vibrometry, the second is based on sound pressure measurements in the near field of the structure, and the third is the measurement of normal acoustic velocities by using a p-U probe recently developed by Microflown Technologies. This was followed by the application of classical NAH, known as pressure-to-velocity holography and velocity-to-velocity holography to predict the plate velocity field from acoustic measurements at distances of 1 and 5 cm. Afterwards, the force analysis technique, also known as the RIFF technique, is applied with these five data sets. The principle is to inject the displacement field of the structure into its equation of motion and extract the resulting force distribution. This technique requires regularization done by a low-pass filter in the wavenumber domain. Apart from pressure-to-velocity holography at 5 cm, the reconstructed force distribution allows localizing the excitation point in the measurement area. FAT regularization is also shown to improve results as its cutoff wavenumber is optimized with the natural wavenumber of the plate. Lastly, quantitative force values are extracted from force distributions at all frequencies of the band 0–4 kHz studied and compared with the force spectrum measured directly by a piezoelectric sensor.