Porous materials for sound absorption and transmission control

International Congress on Noise Control Engineering 2005, INTERNOISE 2005

Volumn 1, Issue , 2005, Pages 50-69

  Bolton, J Stuart ^a  

^a Purdue University   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ACOUSTICAL CHARACTERIZATION; ACOUSTICAL PERFORMANCE; FINITE ELEMENT; FINITE ELEMENT MODELS; FLOW RESISTIVITY; FOAM LAYERS; MACROSCOPIC PROPERTIES; OPTIMAL DESIGN; SOUND ABSORPTION; SOUND TRANSMISSION; TRANSMISSION CONTROL; TREATMENT VOLUMES;

ACOUSTIC NOISE; ACOUSTIC VARIABLES CONTROL; ARCHITECTURAL ACOUSTICS; BEHAVIORAL RESEARCH; FINITE ELEMENT METHOD;

POROUS MATERIALS;

EID: 84873824176     PISSN: None     EISSN: None     Source Type: Conference Proceeding    
DOI: None     Document Type: Conference Paper

References (59)

1. L.L. Beranek 1942 Journal of the Acoustical Society of America 13, 248-260. Acoustic Impedance of Porous Materials.
2. H.-Y. Lai, S. Katragadda, J.S. Bolton and J.H. Alexander 1997 Paper 972064 Proceedings of the 1997 Noise and Vibration Conference, Society of Automotive Engineers, 1553-1560. Layered Fibrous Treatments for Sound Absorption and Sound Transmission.
3. K.U. Ingard 1981 J. Eng. Industry, Trans. ASME 103, 302-313. Locally and Nonlocally Reacting Flexible Porous Layers; A Comparison of Acoustical Properties.
4. J.W.S. Rayleigh 1896 The Theory of Sound (Volume II, Article 351). New York: Dover Publication, second edition, 1945, re-issue.
5. K. Attenborough 1982 Physics Reports 82, 179-227. Acoustical Characteristics of Porous Materials.
6. L.L. Beranek 1947 Journal of the Acoustical Society of America 19, 556-568. Acoustical Properties of Homogeneous, Isotropic Rigid Tiles and Flexible Blankets.
7. C. Zwikker and C.W. Kosten, 1949 Sound Absorbing Materials. Amsterdam: Elsevier Press.
8. M.A. Biot 1956 Journal of the Acoustical Society of America 28, 168-191. Theory of Propagation of Elastic Waves in a Fluid-Saturated Porous Solid. I. Low-Frequency Range. II. Higher Frequency Range.
9. J.S. Bolton and E.R. Green 1993 Applied Acoustics 39, 23-51. Normal Incidence Sound Transmission through Double-Panel Systems Lined with Relatively Stiff, Partially Reticulated Polyurethane Foam.
10. J.S. Bolton, N.-M. Shiau and Y.J. Kang 1996 Journal of Sound and Vibration 191, 317-347. Sound Transmission through Multi-Panel Structures Lined with Elastic Porous Materials.
11. N.-M. Shiau 1991 Ph.D. Thesis, School of Mechanical Engineering, Purdue University. Multi-Dimensional Wave Propagation in Elastic Porous Materials with Application to Sound Absorption, Transmission and Impedance Measurement.
12. W. Tsoi 1992 MSME Thesis, School of Mechanical Engineering, Purdue University. Acoustical Modeling of Polyimide Foams.
13. K. Attenborough 1971 Journal of Sound and Vibration 16, 419-442. The Influence of Microstructure on Propagation in Porous Fibrous Absorbents.
14. J. Sides, K. Attenborough and K.A. Mulholland 1971 Journal of Sound and Vibration 19, 49-64. Application of a Generalized Acoustic Propagation Theory to Fibrous Absorbents.
15. Y. Kawasima 1960 Acustica 10, 208-217. Sound Propagation in a Fiber Block as a Composite Medium.
16. Y.J. Kang 1994 Ph.D. Thesis, School of Mechanical Engineering, Purdue University. Studies of Sound Absorption by and Transmission through Layers of Elastic Noise Control Foams: Finite Element Modeling and Effects of Anisotropy.
17. H.L. Kuntz 1982 NASA CR-167979. High Intensity Sound in Air Saturated Fibrous Bulk Porous Materials.
18. J.D. McIntosh and R.F. Lambert 1990 Journal of Acoustical Society of America 88, 1939-1949. Nonlinear Wave Propagation through Rigid Porous Material. I: Nonlinear Parameterization and Numerical Solutions.
19. R.F. Lambert and J.S. McIntosh 1990 Journal of Acoustical Society of America 88, 1950-1959. Nonlinear Wave Propagation through Rigid Porous Material. II: Approximate Analytical Solutions.
20. A. Cunningham, E. Huyghens and J.W. Leenslag 1995 Journal of Cellular Plastics 31, 461-472. MDI Comfort Cushioning for Automotive Applications.
21. D.A. Bies 1988 Chapter 10 in Noise and Vibration Control, Ed. L.L. Beranek (Institute of Noise Control Engineering). Acoustical Properties of Porous Materials.
22. Y. Champoux, M.R. Stinson and G.A. Daigle 1991 Journal of the Acoustical Society of America 89, 910-916. Air-Based System for the Measurement of Porosity.
23. L.L. Beranek 1949 Acoustic Measurements, 854-857. New York: Wiley.
24. J.F. Allard 1993 Propagation of Sound in Porous Media: Modeling Sound Absorbing Materials. London: Elsevier Press.
25. ASTM Standards C552-87. Standard Test Methods for Airflow Resistance of Acoustical Materials.
26. Y. Champoux and M.R. Stinson 1992 Journal of the Acoustical Society of America 92, 1120-1131. On Acoustical Models for Sound Propagation in Rigid Frame Porous Materials and the Influence of Shape Factors.
27. R.J.S. Brown 1980 Geophysics 45, 1269-1275. Connection between Formation Factor of Electrical Resistivity and Fluid-Solid Coupling Factor in Biot's Equations for Acoustics Waves in Fluid-Filled Porous Media.
28. M. Henry, D. Lafarge and B. Castagnede 1994 Proceedings of INTER-NOISE 94, 1935-1938. Ultrasonic Measurement of Tortuosity on Acoustic Porous Materials.
29. Y.K. Kim and H.B. Kingsbury 1979 Experimental Mechanics 19, 252-258. Dynamic Characterization of Poroelastic Materials.
30. A. Wijesinghe and H.B. Kingsbury 1979 Journal of the Acoustical Society of America 65, 90-95. Complex Modulus of a Poroelastic Column.
31. A. Okuno 1986 Ph.D. Thesis, School of Mechanical Engineering, University of Delaware. Dynamic Response of Structures Containing Poroelastic Materials.
32. U. Ingard, F. Kirschner, J. Koch and M. Poldino 1989 Proceedings of INTER-NOISE 89, 1057-1062. Sound Absorption by Porous, Flexible Materials.
33. U. Ingard, F. Kirschner, J. Koch and M. Poldino 1990 Proceedings of INTER-NOISE 90, 225-230. Further Studies of Sound Absorption by Porous, Flexible Materials.
34. Y.J. Kang 1995 Personal Communication.
35. E. Mariez, S. Sahraoui and J.F. Allard 1996 Proceedings of INTER-NOISE 96, 951-954. Elastic Constants of Polyurethane Foam's Skeleton for Biot Model.
36. A.D. Pierce 1981 Acoustics-An Introduction to Its Physical Principles and Applications. New York: McGraw-Hill. 1989 re-published by Acoustical Society of America.
37. M. Minten, A. Cops and W. Lauriks 1988 Journal of Sound and Vibration 120, 499-510. Absorption Characteristics of an Acoustic Material at Oblique Incidence Measured with Two-Microphone Technique.
38. R.F. Lambert 1982 Journal of the Acoustical Society of America 73, 1131-1138. Propagation of Sound in Highly Porous Open-Cell Foams.
39. R.F. Lambert 1982 Journal of the Acoustical Society of America 73, 1139-1146. Surface Acoustic Admittance of Highly Porous Open-Cell Foams.
40. J.F. Allard, A. Aknine and C. Depollier 1986 Journal of the Acoustical Society of America 79, 1734-1740. Acoustical Properties of Partially Reticulated Foams with High and Medium Flow Resistance.
41. P.M. Morse 1948 Vibration and Sound. New York: McGraw-Hill. 1981 re-published by Acoustical Society of America.
42. D.A. Bies and C.H. Hansen 1988 Engineering Noise Control: Theory and Practice. Boston: Unwin Hayman.
43. M.E. Delany and E.N. Bazley 1969 National Physical Laboratory, Aerodynamics Division Report AC37. Acoustical Characteristics of Fibrous Absorbent Materials.
44. L.L. Beranek and S. Labate 1960 Chapter 12 in Noise Reduction, Ed. L.L. Beranek, Second Reprint Edition (Los Altos: Penisula Press). Acoustical Properties of Porous Materials.
45. A. Cops and M. Minten 1984 Noise Control Engineering Journal 22, 104-111. Comparative Study between the Sound Intensity Method and the Conventional Two-Room Method to Calculate the Sound Transmission Loss of Wall Constructions.
46. M.J. Crocker, P.K. Raju and B. Forssen 1981 Noise Control Engineering Journal 17, 6-11. Measurement of Transmission Loss of Panels by Direct Determination of Transmitted Acoustic Intensity.
47. L.L. Beranek and G.A. Work 1949 Journal of the Acoustical Society of America 21, 419-428. Sound Transmission through Multiple Structures Containing Flexible Blankets.
48. R.L. Wallace, Jr., H.F. Dienel and L.L. Beranek 1946 Journal of the Acoustical Society of America 18, 246. Measurement of the Transmission of Sound through Lightweight Structures.
49. F.J. Fahy 1987 Sound and Structural Vibration: Radiation, Transmission and Response. New York: Academic Press, Inc.
50. B.H. Song and J.S. Bolton 2000 Journal of the Acoustical Society of America 107, 1131-1152. A Transfer Matrix Approach for Estimating the Characteristic Impedance and Wave Number of Limp and Rigid Porous Materials.
51. J.H.B. Zarek 1978 Journal of Sound and Vibration 61, 205-234. Sound Absorption in Flexible Porous Materials.
52. W. Lauriks, A. Cops, J.F. Allard, C. Depollier and P. Rebillard 1990 Journal of the Acoustical Society of America 87, 1200-1206. Modelization at Oblique Incidence of Layered Porous Materials with Impervious Screens.
53. Y.J. Kang and J.S. Bolton 1995 Journal of the Acoustical Society of America 98, 635-643. Finite Element Modeling of Isotropic Elastic Porous Materials Coupled with Acoustical Finite Elements.
54. Y.J. Kang and J.S. Bolton 1996 Journal of the Acoustical Society of America 99, 2755-2765. A Finite Element Model for Sound Transmission through Foam-Lined Double Panel Structures.
55. Y.J. Kang and J.S. Bolton 1996 A.S.M.E. Journal of Vibration and Acoustics 118, 498-504. Optimal Design of Acoustical Treatments.
56. Y.J. Kang and J.S. Bolton 1997 Journal of the Acoustical Society of America 102, 3319-3332. Sound Transmission through Elastic Porous Wedges and Foam Layers Having Spatially Graded Properties.
57. S. Rigobert, N. Atalla and F.C. Sgard 2003 Journal of the Acoustical Society of America 114, 2607-2617. Investigation of the Convergence of the Mixed Pressure-Displacement Formulation for Three-Dimensional Poroelastic Materials Using Hierarchical Elements.
58. V. Easwaran, W. Lauriks and J.P. Coyette 1996 Journal of the Acoustical Society of America 100, 2989-3002. Displacement-Based Finite Element Method for Guided Wave Propagation Problems: Application to Poroelastic Media.
59. F.C. Sgard, X. Olny, N. Atalla and F. Castel 2005 Applied Acoustics 66, 625-651. On the Use of Perforations to Improve the Sound Absorption of Porous Materials.