声振系统中高频能量流分析法研究进展

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振动与冲击 ›› 2012, Vol. 31 ›› Issue (11) : 62-69.

论文

声振系统中高频能量流分析法研究进展

游进1，孟光2，李鸿光2

作者信息 +

Review of mid-to-high frequency energy flow analysis method for vibro-acoustic systems

YOU Jin1, MENG Guang2, LI Hong-guang2

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文章历史 +

摘要

能量流分析法是预测声振系统中高频动力响应的一种有效手段，该方法引入的假设条件较少，并可基于声振系统的几何模型计算随空间变化的稳态动力响应，应用上具有很大的优点。本文首先回顾了不同结构件（包括杆、梁、板及复合结构）各种波场的能量微分方程及其理论基础的发展过程，然后，针对不同类型的声振系统耦合形式，包括结构/结构耦合，结构/流体耦合及其它耦合情况，说明了基于能量流分析的耦合问题处理方法的发展，最后，说明了计算随机激励下声振系统响应的随机能量流分析法的相关研究，以及其与经典统计能量分析法间理论关系研究的进展情况。

Abstract

Energy flow analysis (EFA) method is an effective simulation tool that models the dynamic behavior of vibro-acoustic systems. This approach involves only a few assumptions, and can provide information concerning the spatial evolution of the dynamic response on subsystems, which reflects the significant advantage of the method with respect to practical application. In this paper, the development of the differential energy equations of several wave types of different structural/acoustic components, as well as their theoretical basis, are reviewed first. Then, the achievements that have been made to develop the capability of EFA in dealing with several kinds of complex coupling problems, which include structure/structure coupling, structure/fluid coupling, and some other specific coupling situations, are elaborated. Lastly, random energy flow analysis (REFA), which applies to the situation where random excitations are exerted, is introduced, and studies concerning investigation on the differences and theoretical relationship between REFA and classical statistical energy analysis (SEA) are reviewed.

导出引用

游进;孟光;李鸿光. 声振系统中高频能量流分析法研究进展[J]. 振动与冲击, 2012, 31(11): 62-69

YOU Jin;MENG Guang;LI Hong-guang. Review of mid-to-high frequency energy flow analysis method for vibro-acoustic systems [J]. Journal of Vibration and Shock, 2012, 31(11): 62-69