欢迎登录材料期刊网

材料期刊网

高级检索

对具有不同参数的单层电解多孔铁镍薄板结构及双层复合结构的吸声特性进行了试验和分析,将电解多孔铁镍薄板理想化为超细微孔结构,采用平均孔距和平均孔径利用微穿孔理论计算了电解多孔铁镍薄板结构的吸声性能,并与实测值进行了比较,结果表明,单层空腔电解多孔铁镍薄板结构具有很强的共振吸声特性和良好的吸声性能,吸声系数大于0.6的频带超过2个倍频程,双层复合结构可明显拓宽吸声频带,进一步提高吸声性能.对于单层电解多孔铁镍薄板结构,采用平均孔径和平均孔距根据微穿孔理论获得的吸声系数计算值与实测值吻合得良好;对于双层复合结构,吸声系数计算值与实测值的频率特性相近,最大值接近,但存在一定的频率偏移.

参考文献

[1] Les Stanwood,Health effect of fibrous glass,Construction Specifier,41(3),88(1988)
[2] Laurel M.Sheppard,Engineering control of vitreous fibers,American Ceramic Society Bulletin,68(12),2092(1989)
[3] LIU Jianye,The health hazardous effect of non-asbestos fiber.Journal of Occupational Health and Damage,9(2),112(1994) (刘建业,非石棉纤维的健康危害,职业卫生与病伤,9(2),112(1994))
[4] LIU Tiemin,WANG Yinsheng,Present status of manufacture,application,hazardous effects and preventive measures of asbestos substitutes in China,China Safety Science Journal,12(2),1(2002)(刘铁民,王银生,我国石棉替代品生产、使用、危害及防护措施状况,中国安全科学学报,12(2),1(2002))
[5] T.J.Lu,Audrey Hess,M.F.Ashby,Sound absorption in metallic foams,Journal of Applied Physics,85(11),7528(1999)
[6] T.J Lu,Feng Chen,Sound absorption of cellular metals with semiopen cells,Journal of the Acoustical Society of America,108(4),1697(2000)
[7] ZhenKai Xie,Teruyuki Ikeda,Yosiyuki Okuda,Hideo Nakajima,Sound absorption characteristics of lotus-type porous copper fabricated by unidirectional solidification,Materials Science and Engineering A.,386,390(2004)
[8] Fusheng Han,G.Seiffert,Yuyuan Zhao,Acoustic absorption behavior of an open-celled aluminum foam,Journal of Physics D(Applied Physics),36(3),294(2003)
[9] Masataka Hakamada,Tetsunume Kuromura,Youqing Chen,Hiromu Kusuda,Mamoru Mabuchi,High sound absorption of porous aluminum fabricated by spacer method,Applied Physics Letters,88,254106(2006)
[10] Yu Haijun,Li Bing,Yao Guangchun,Wang Xiaolin,Luo Hongjie,Lui Yihan,Sound absorption and insulation property of closed-cell aluminum foam,Transactions of the Nonferrous Metals Society of China,16(3),1383(2006)
[11] YU Haijun,YAO Guangchun,WANG Xiaolin,LI Bing,YIN Yao,Research on sound absorption property of A1-Si closed-cell aluminum foam,Journal of Functional Materials,37(12),2014(2006)(尉海军,姚广春,王晓林,李兵,尹铫,铝硅闭孔泡沫铝吸声性能研究,功能材料,37(12),2014(2006))
[12] ZHAO Tingliang,XU Liantang,LI Daoyun,Acoustic absorption properties of aluminum foam,Chinese Internal Combustion Engine Engineering,16(2),55(1995) (赵庭良,徐连棠,李道韫,泡沫铝的吸声特性,内燃机工程,16(2),55(1995))
[13] J.Y.Chung,D.A.Blaser,Transfer function method of measuring in-duct acoustic properties.I.Theory.J.Acoust.Soc.Am.,68(3),907(1980)
[14] J.Y.Chung.D.A.Blaser,Transfer function method of measuring in-duct acoustic properties.Ⅱ.Experiment,Journal of the Acoustical Society of America,68(3),914(1980)
[15] W.T.Chu,Further experimental studies on the transfer function technique for impedance tube measurements,Journal of the Acoustical Society of America,83(6),2255(1988)
[16] LU Yuheng,Manual of Equipments and Materials of Noise and Vibration Control(Beijing,China Machine Press,1999)p.143 (吕玉恒,噪声与振动控制设备及材料选用手册(北京,机械工业出版社,1999)p.143)
[17] I.B.Crandall,Theory of Uibrating Systems and Sound fNew York,Van Norstrand Company,1927)p.229
[18] Maa Dahyon,Theory and Design of Microperforatedpanel Absorbers,Science in China,23(1),38(1975) (马大猷,微穿孔板吸声结构的理论和设计,中国科学,23(1),38(1975))
[19] Maa Dahyou,Fundamental Theory of Modern Acoustics,(Beijing,Science Press,2004)p.217 (马大猷,现代声学理论基础,(北京,科学出版社,2004)p.217)
上一张 下一张
上一张 下一张
计量
  • 下载量()
  • 访问量()
文章评分
  • 您的评分:
  • 1
    0%
  • 2
    0%
  • 3
    0%
  • 4
    0%
  • 5
    0%