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Application of the Hybrid FE-SEA Method to Predict Sound Transmission Through Complex Sealing Systems

Journal Article
2011-01-1708
ISSN: 1946-3995, e-ISSN: 1946-4002
Published May 17, 2011 by SAE International in United States
Application of the Hybrid FE-SEA Method to Predict Sound Transmission Through Complex Sealing Systems
Sector:
Citation: Cordioli, J., Calçada, M., Rocha, T., Cotoni, V. et al., "Application of the Hybrid FE-SEA Method to Predict Sound Transmission Through Complex Sealing Systems," SAE Int. J. Passeng. Cars – Mech. Syst. 4(2):1320-1329, 2011, https://doi.org/10.4271/2011-01-1708.
Language: English

References

  1. Park, J. Siegmund, T. Mongeau, L. “Sound transmission through elastomeric bulb seals” Journal of Sound and Vibration 259 2 299 322 2003
  2. Andro, B. chaine, S. Diallo, A. Mermet, M. “Prediction of sound transmission though automotive door seal system.” Proceeding of Acoustics 2008 Paris, France 2008
  3. Park, J. Mongeau, L. Siegmund, T. “Effects of Geometric Parameters on the Sound Transmission Characteristic of Bulb Seals,” SAE Technical Paper 2003-01-1701 2003 10.4271/2003-01-1701
  4. Mongeau, L. Danforth, R. “Sound Transmission Through Primary Bulb Rubber Sealing Systems,” SAE Technical Paper 971903 1997 10.4271/971903
  5. Cordioli, J. Cotoni, V. Shorter, P. “Numerical Investigation of the Transmission Loss of Seals and Slits for Airborne SEA Predictions,” SAE Technical Paper 2009-01-2205 2009 10.4271/2009-01-2205
  6. Shorter, P.J. Langley, R.S. “Vibro-acoustic analysis of complex systems.” Journal of Sound and Vibration 288 669 700 2005
  7. Shorter, P. J. Langley, R. S. “On the Reciprocity Relationship between Direct Field Radiation and Diffuse Reverberant Loading” Journal of the. Acoustical Society of America 117 1 2005 85 95
  8. Langley, R. S. “On the Diffuse Field Reciprocity Relationship and Vibrational Energy Variance in a Random Subsystem at High Frequencies,” Journal of the. Acoustical Society of America 121 2 2007 913 921
  9. Cotoni, V. Shorter, P.J. Langley, R.S. “Numerical and experimental validation of a finite element - statistical energy analysis method.” Journal of the Acoustical Society of America 122 259 270 2007
  10. Sgard, F. Nelisse, H. Atalla, N. “On the modeling of the diffuse field sound transmission loss of finite thickness apertures.” Journal of Acoustical Society of America 122 1 302 313 2007
  11. VA One 2008 User's Guide ESI Software October 2008 http://www.esi-group.com
  12. Gomperts, M. C. “The sound insulation of circular and slit-shaped apertures” Acustica 14 1 16 1964
  13. Gomperts, M. C. Kihlman, T. “The sound transmission loss of circular and slit-shaped aperture in walls,” Acustica 18 144 150 1967
  14. Visual-SEAL User's Guide ESI Software October 2008 http://www.esi-group.com
  15. ASTM E756-05 “Standard Test Method for Measuring Vibration-Damping Properties of Materials” American Society for Testing and Materials 2005
  16. Oldham, D.J. Zhao, X. X. “Measurement of the sound transmission loss of circular and slit-shaped apertures in rigid walls of finite thickness by intensimetry” Journal of Sound and Vibration 161 119 135 1993

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