Low frequency noise reduction using stiff light composite panels

Low frequency noise reduction using stiff light composite panels

下载PDF

导出

摘要 The experiment presented in this paper is to investigate and analyze the noise reduction at low frequency using stiff light composite panels. Since these composite panels are made of lightweight and stiff materials, this actuation strategy will enable the creation of composite panels for duct noise control without using traditional heavy structural mass. The results suggest that the mass-spring resonance absorption in the case of a comparatively stiff thick panel with a thin flexible plate is more efficient with minimum weight, when subjected to low-frequency (<500 Hz). The efficiency of the panel absorber depends on the mass of the thin flexible plate and the stiffness of the panel. The experiment presented in this paper is to investigate and analyze the noise reduction at low frequency using stiff light composite panels. Since these composite panels are made of lightweight and stiff materials, this actuation strategy will enable the creation of composite panels for duct noise control without using traditional heavy structural mass. The results suggest that the mass-spring resonance absorption in the case of a comparatively stiff thick panel with a thin flexible plate is more efficient with minimum weight, when subjected to low-frequency (<500 Hz). The efficiency of the panel absorber depends on the mass of the thin flexible plate and the stiffness of the panel.

作者 DENG Yongchang, LIN Weizheng (Institute of Acoustics, Tongji University, Shanghai 200092, China)

出处《声学技术》 CSCD 2003年第z1期28-36,共9页 Technical Acoustics

关键词 low frequency STIFF COMPOSITE panels noise REDUCTION low frequency, stiff composite panels, noise reduction

分类号 TB5 [理学—声学]

引文网络
相关文献

参考文献21

1[1]Allen C H. Noise reduction. McGraw-Hill, New York, 1960.
2[2]Guthie A. Low frequency acoustic transmission through the walls of various types of ducts, MSc Dissertation. Polytechnic of South Bank, U.K., 1979.
3[3]Cummings A. Low frequency acoustic transmission through the walls of rectangular ducts. Journal of Sound and Vibration, 1978, 61: 327-345.
4[4]Cummings A. Low frequency sound transmission through the walls of rectangular ducts: further comments. Journal of Sound and Vibration, 1979, 63: 463-465.
5[5]Cummings A. Low frequency acoustic radiation from duct walls. Journal of Sound and Vibration, 1980, 71: 201-226.
6[6]Cummings A. Stiffness control of low frequency acoustic transmission through the walls of rectangular ducts. Journal of Sound and Vibration, 1981, 74: 351-380.
7[7]Cummings A. Design charts for low frequency acoustic transmission through the walls of rectangular ducts. Journal of Sound and Vibration, 1981, 78: 269-289.
8[8]Bolton J S, Shiau N M, and KANG Y J. Sound transmission through multi-panel structures lined with elastic porous materials. Journal of Sound and Vibration, 1996, 191, 317-347.
9[9]Frommhold W, Fuchs H V, and SHENG S. Acoustic performance of membrane absorbers. Journal of Sound and Vibration, 1994, 170: 621-636.
10[10]Kang Y J and Bolton J S. A finite element model for sound transmission through foam-lined double-panel structures. Journal of Acoustical Society of America, 1996, 99(5): 2755-2765.

1ZHU Zhichi,HUANG Zhenhua and HE Zhen(Tsinghun University. Beijing 100084).A numerical study of noise reduction in ducts with flow by anti-sound[J].Chinese Journal of Acoustics,1994,13(2):108-120.
2Engineering Noise Control[J].Chinese Journal of Acoustics,1997,16(2):193-193.
3Acoustical news Progress of research and application on noise control engineering[J].Chinese Journal of Acoustics,1996,15(2):186-191.
4FU Hui-min,PENG Bo.Compressive behavior of composite panels with deeply embedded delamination[J].航空动力学报,2012,27(1):82-88.
5TIAN Rui(Inner Mongolia Polytechnic University Huhhot 010062)ZHU Zhichi,LI Song,GUO Rui,JIANG Xianjin and WANG Zhiping (Tsinghua University Beijing 100084).An application study of noise reduction by anti-sound using bypass[J].Chinese Journal of Acoustics,1997,16(3):203-213.
6Xia-Lian Zheng,Zheng-Hou Zhu,Xiao-Min Li.The absorbing properties of Fe_(73.5) Cu_1 Nb_3Si_(13.5)B_9 amorphous powder/S-glass fiber-reinforced epoxy composite panels[J].Rare Metals,2013,32(3):294-298. 被引量：2
7Xiaoguang Xue,Guoxi Li,Adam James Sobey,Ramanand Ajit Shenoi.The Application of Reliability Based Optimization of Tophat Stiffened Composite Panels Subject to Bi-Directional Buckling Loads[J].材料科学与工程（中英文B版）,2013,3(11):721-733.
8唐超,陆夕云.Self-propulsion of a three-dimensional flapping flexible plate[J].Journal of Hydrodynamics,2016,28(1):1-9. 被引量：5
9Lei Fu,Yunlong Guo,Yu Wang.Preface: innovative flexible energy[J].Science China Materials,2016,59(6):409-409. 被引量：1
10陈锦祥,Gang Wu.Beetle forewings:Epitome of the optimal design for lightweight composite materials[J].功能材料信息,2013,10(4):22-28. 被引量：10

声学技术

2003年第z1期

浏览历史

内容加载中请稍等...

Low frequency noise reduction using stiff light composite panels

参考文献21

相关作者

相关机构

相关主题

浏览历史