A HYBRID METHOD FOR INTERIOR STRUCTURAL-ACOUSTIC ANALYSIS
The finite element method (FEM) is a widely accepted prediction tool for the steady-state dynamic response analysis of coupled structural-acoustic (SA) systems. However, it is limited to the low frequency range due to the fast growing model size for increasing frequencies. An alternative method is the wave based method (WBM) based on the indirect Trefftz method. However, the applicability of the WBM is limited since the high computational efficiency only appears for moderate geometrical complexity. In order to take advantage of the wide application range of the FEM and the high convergence rate of the WBM, the coupling between both prediction tools is proposed. The basic idea is to replace parts of the finite element model with simple geometrical shapes by much smaller wave models. The resulting hybrid model has fewer degrees of freedom (DOF’s). The theoretical background of both the FEM and the WBM is briefly discussed, followed by the mathematical description of the hybrid FE-WB method. The hybrid modeling concept is demonstrated for a structural-acoustic system. The results are shown to be in good agreement with numerical simulation results. The example illustrates that the hybrid FE–WB method has the potential to cover the mid-frequency range.
structural acoustic analysis numerical modeling wave based method TREFFTZ method
Li Peng He Zeng Peng Weicai
Department of Mechanics, Huazhong University of Science & Technology,Wuhan 430074, China
国际会议
The Fifth International Conference on VETOMAC-V(第五届振动工程及机械技术国际会议)
武汉
英文
216-224
2009-08-27(万方平台首次上网日期,不代表论文的发表时间)