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聚四氟乙烯微孔膜的透声性能实验 被引量:2

Measurement of Acoustic Performance of PTFE Microporous Membrane
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摘要 为研究微孔薄膜材料的透声性能,搭建了改进的四传声器阻抗管隔声量测试系统,推导了阻抗管中隔声量的传递损失矩阵算法,此算法可以有效地分离隔声管中透射波与二次反射波,使测试结果不受隔声管末端材料吸声性能的影响,与原四传声器算法相比物理意义更明确.对3种微孔薄膜样品进行了实验和分析,结果表明改进的测试方法可以精确地测试样品隔声量,尤其能提高低频段隔声量的测试精度,测试结果重复性优于原方法. A new method of sound transmission loss measurement using a modified four-microphone impedance tube was proposed in this paper to investigate the microporous membrane's acoustic performance. Transmission loss matrix algorithm of the system was conducted with the physical meaning more clear than that of four-micro- phone impedance algorithm. The new algorithm effectively separated the transmission wave from the secondary reflected wave in the impedance tube and ensured the measurement result not to be influenced by absorbent end of the tube. Three types of microporous membrane were studied with new algorithm. The results indicate that the new method can raise the precision and repeatability of the measurement, especially in low frequency.
作者 刘晓松 娄文忠 刘爱丽 王永强
机构地区 北京理工大学宇航科学技术学院
出处 《纳米技术与精密工程》 EI CAS CSCD 2008年第2期85-88,共4页 Nanotechnology and Precision Engineering
基金 国防科工委基础研究项目(1020021200626)
关键词 隔声量 传递损失矩阵算法 聚四氟乙烯(PTFE)微孔膜 四传声器 sound transmission loss transmission loss matrix algorithm PTFE microporous membrane four- microphone
分类号 TB383.2 [一般工业技术—材料科学与工程]
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参考文献1

  • 1[6]Barnard Andrew R,Rao Mohan D.Measurement of sound transmission lose using a modified four-microphone impedance tube[C]//The 2004 National Conference on Noise Noise Control Engineering.Baltimore,Maryland,2004:12-14.

同被引文献19

  • 1张敏良,俞悟周,张明发.无纤维超微孔薄膜加工技术探讨与实践[J].噪声与振动控制,2006,26(5):104-106. 被引量:3
  • 2ERBE F. Die Destimmung der porenverteilung naeh lhrer grosse in fihern und ultra-filtem[J]. Kolloid Z, 1933, 63(3): 277-285.
  • 3KESTING R E. Phase inversion membranes[J]. ACS Symposium Series, 1985: 131-164.
  • 4VORONINA N N. Influence of the structure of fibrous soundabsorbing materials on their acoustical properties[J]. Soviet Physics- Acoustics, 1983, 29(5): 355-357.
  • 5LIU A L, LOU W Z. Simulation on sound transmission loss of PTFE micro-aperture membrane [ C ]. NEMS: 3rd IEEE International Conference on Nano/Miero Engineered and Molecular Systems, 2008 : 202-205.
  • 6BARNARD A R, RA M D. Measurement of sound transmission loss using a modified four microphone impedance tube[C]. Baltimore, Maryland: NOISE-CON 2004, 2004: 12-14.
  • 7K. Sakagami, M. Kiyama, M. Morimoto, D. Takahashi.Sound absoption of a cavity- backed membrane: a steptoward design method for membrane- type absorbers [J].Apll. Acoust., 1996, 49:237-247.
  • 8K. Sakagami, M. Morimoto, D. Takahashi. A note on theacoustic reflection of an infinite membrane[J]. Acusticu,1994, 80: 569-572.
  • 9D. Takahashi, K. Sakagami, M. Morimoto. Soundabsorption of layered structures with permeablemembranes[C]. Proc. 15 th ZCA (Trondheim, Norway),II , 1995: 673-676.
  • 10K. Sakagami, T. Uyama, M. Morimoto, M. Kiyama.Prediction of the reverberation absorption coefficient offinite- size membrane absorbers [J]. Apll. Acoust., 2005,66: 653-668.

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纳米技术与精密工程
2008年 第2期

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