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含空气层CPE/CZ结构材料低频吸声性能研究 被引量:2

Study on Low-Frequency Sound Absorption Properties of Structural Material Comprising CPE/CZ and Air Layer
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摘要 利用SW260系列的阻抗管测试了由氯化聚乙烯(CPE)作为聚合物基体和N-环己基-2-苯并噻唑次磺酰胺(CZ)有机小分子作为第二组分的杂化材料的吸声性能,通过空气层的介入形成结构材料,发现其在低频段具有良好的吸声性能.研究了空气层厚度的变化对吸声峰值大小及对应频率值的影响,测试了CPE/CZ系列杂化材料和空气层构成的结构材料的声学性能,并分析了损耗因子及损耗因子双峰对材料声学性能的影响.结果表明,含空气层的CPE/CZ结构材料在低频段具有优良的吸声性能。 Sound absorption properties of structural m aterial comprising CPE/CZ,which is organic hybrid composites consisting of chlorinated polyethylene(CPE) as the matrix polymer and N-cyclohexyl-2 benzothiazolesulphenamide(CZ) as the second component of an organic low-molecular-weight compound,and the air layer were investigated with a SW260 impedance tube.It is found that structural materials comprising CPE/CZ and air layer had excellent sound absorption properties in low-frequency sound.The effect of thickness of air layer on sound absorption peaks and their corresponding frequencies were studied.Sound absorption properties of structural materials comprising CPE/CZ series hybrid composites and air layer were tested.The influence of loss factors and double peak of loss factors on sound absorption properties of structural materials was analyzed.The results showed that structural material comprising CPE/CZ and air layer had an excellent acoustical absorption property in low frequency.
作者 姜生 周祥 晏雄
机构地区 东华大学 南通纺织职业技术学院
出处 《南通纺织职业技术学院学报》 2010年第2期5-8,共4页 Journal of Nantong Textile Vocational Technology college
关键词 结构材料 吸声性能 频率 损耗因子 structural material sound absorption properties frequency loss factors
分类号 TB332 [一般工业技术—材料科学与工程]
  • 相关文献

参考文献9

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共引文献14

同被引文献20

  • 1姜洪源,武国启,闫辉,Е.А.Изжеуров.金属橡胶吸声降噪性能分析及试验研究[J].机械科学与技术,2007,26(4):403-407. 被引量:11
  • 2SEUNG Bum Park, DAE Seuk Seo, LEE Jun. Studies on the sound absorption characteristics of porous concrete based on the content of recycled aggregate and target void ratio [ J ]. Cement and Concrete Research, 2005(35) :1846 - 1854.
  • 3KANG S W,LE J M. Sound absorption characteristics of air-gap systems in enclosed cavities [ J ]. Journal of Sound and Vibration ,2003 (259) :209 - 218.
  • 4ZHOU H, LI B, HUANG G S. Sound absorption behavior of multi-porous hollow polymer micro- spheres[ J]. Materials Letters ,2006,60:3451 - 3456.
  • 5ZHOU H, LI B, HUANG G S. Sound absorption characteristics of polymer micro-particles [ J ]. Journal of Applied Polymer Science,2006,101 (4) :2675 - 2679.
  • 6ZHOU H, LI B, HUANG G S. A novel composite sound absorber with re-cycled rubber particles [ J ]. Journal of Sound and vibration,2007 (304) :400 - 406.
  • 7PANNERT W, WINKLER R, MERKEL M1. On the acoustical properties of metallic hollow sphere structures (MHSS) [ J]. Materials Letters, 2009 (63) : 1121 - 1124.
  • 8ZHANG Bo, CHEN Tianning. Calculation of sound absorption characteristics of porous sintered fiber metal[ J ]. Applied Acoustics, 2009 ( 70 ) :337 - 346.
  • 9JAIME Pfretzschner, PEDRO Cobo, FRANCISCO Simon, et al. Microperforated insertion units: an alternative strategy to design microperforated panels[ J]. Applied Acoustics ,2006 (67) : 62 - 73.
  • 10SGARD F C, OLNY X, ATALLA N. On the use of perforations to improve the sound absorption of porous materials [ J ]. Applied Acoustics, 2005 ( 66 ) : 625 - 651.

引证文献2

二级引证文献11

南通纺织职业技术学院学报
2010年 第2期

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