论文信息 - Insertion loss of an acoustic enclosure.

Insertion loss of an acoustic enclosure.

Acoustical enclosures are the common arrangements in reducing airborne noise from shipboard machinery such as engines and generators. In this paper the theoretical models, established based on statistical energy analysis, are presented for predicting the insertion loss of acoustical enclosures in different frequency ranges. In addition to the consideration of resonant modal coupling between internal sound field and enclosure structural vibration, the nonresonant transmission though and the interaction between enclosure walls in the models are also included. It is shown that the insertion loss of enclosures is mainly controlled by the nonresonant modes in the intermediate frequency range. At high frequencies, the insertion loss of enclosures can be improved by increasing the sound absorption at the internal boundaries of enclosures. Experiments were carried out on two enclosures made of different materials. The measured results are compared with the predicted values and the good agreement between them is the initial demonstration of the validity and feasibility of the theoretical models.

Jie Pan | Ruisen Ming | R. Ming | J. Pan

[1] Robert J.M. Craik,et al. Statistical energy analysis of structure-borne sound transmission at low frequencies , 1991 .

[2] Malcolm J. Crocker,et al. Theoretical and Experimental Studies of the Noise Reduction of an Idealized Cabin Enclosure , 1983 .

[3] Odd Kr. O. Pettersen,et al. An Intensity Method for Determining Sound Power In Situ , 1988 .

[4] R. Lyon. Noise reduction of rectangular enclosures with one flexible wall , 1963 .

[5] D. A. Bies,et al. In situ determination of loss and coupling loss factors by the power injection method , 1980 .

[6] R. S. Jackson,et al. Some aspects of the performance of acoustic hoods , 1966 .

[7] D. J. Oldham,et al. The acoustical performance of small close fitting enclosure, part 1: Theoretical models , 1991 .

[8] Malcolm J. Crocker,et al. Sound Transmission through Double Panels Using Statistical Energy Analysis , 1970 .

[9] David R. Tree,et al. Three Methods for Predicting the Insertion Loss of Close-Fitting Acoustical Enclosures , 1978 .

[10] D. J. Oldham,et al. The acoustical performance of small close fitting enclosures, part 2: Experimental investigation , 1991 .

[11] Robert J.M. Craik,et al. Statistical Energy Analysis Of Structure-borne Sound Transmission By Finite Element Methods , 1994 .