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复杂封闭声场面板声学贡献度识别的等效源法
引用本文:肖悦, 陈剑, 胡定玉, 蒋丰鑫. 复杂封闭声场面板声学贡献度识别的等效源法[J]. 声学学报, 2014, 39(4): 489-500. DOI: 10.15949/j.cnki.0371-0025.2014.04.005
作者姓名:肖悦  陈剑  胡定玉  蒋丰鑫
作者单位:1.合肥工业大学噪声振动工程研究所 合肥 230009
基金项目:国家自然科学基金(11274087)资助
摘    要:针对由复杂结构振动形成的封闭空间声场,提出了一种基于等效源法的面板声学贡献度分析方法。该方法首先利用基于等效源法的内部声全息技术,重构出振动结构表面的法向振速并实现对整个内部封闭声场的预测。再将振动结构的每个面板在腔体内部场点产生的声压分别用位于空腔表面附近的等效源在该点产生的辐射声压代替,将复杂的封闭非自由声场问题转化为简单的内部自由场问题,结合重建出的结构表面法向振速进而识别出封闭振动结构各面板对腔体内任意位置的声学贡献度。通过对复杂结构内声场的数值仿真和验证实验,分析了等效源的数量及与重建面距离等参数对重建精度的影响,结果表明所提方法不仅能够达到传统数值分析方法的计算精度,而且具有更简单的求解过程。

关 键 词:振速  声场分析  腔体内部  重建精度  自由声场  振动结构  封闭空间  声学环境  自由场  结构振动  
收稿时间:2013-06-23
修稿时间:2013-11-26

Equivalent source method for identification of panel acoustic contribution in irregular enclosed sound field
XIAO Yue, CHEN Jian, HU Dingyu, JIANG Fengxin. Equivalent source method for identification of panel acoustic contribution in irregular enclosed sound field[J]. ACTA ACUSTICA, 2014, 39(4): 489-500. DOI: 10.15949/j.cnki.0371-0025.2014.04.005
Authors:XIAO Yue  CHEN Jian  HU Dingyu  JIANG Fengxin
Affiliation:1.Institute of Sound and Vibration Research, Hefei University of Technology
Abstract:For the interior sound field formed by the complex vibrating structure, an identification approach of panel acoustic contribution based on equivalent source method (ESM) was presented. The normal velocity on the surface of vibrating structure was first reconstructed by using interior nearfield acoustic holography based on ESM and the prediction of whole interior enclosed sound field was realized. Then the sound pressure produced by each panel at the interested field point was respectively replaced by the radiated pressure of the enclosed interior sound field which is formed by the equivalent virtual sources located near the surface of the cavity. Combining with the reconstructed normal surface velocity, the acoustic contribution of each panel to any position in the cavity was obtained by transforming the complex enclosed non-free field into the simple interior free field. Numerical simulations and experiments are conducted, and the influences of the number of the equivalent sources and the distance between them and the reconstructed surface have been investigated. The results show that the proposed method is easier to be implemented with the same accuracy than the traditional numerical analysis method. 
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