• Title of article

    Low frequency in situ metrology of absorption and dispersion of sound absorbing porous materials based on high power ultrasonic non-linearly demodulated waves

  • Author/Authors

    Bernard Castagnède، نويسنده , , Alexei Moussatov، نويسنده , , Denis Lafarge، نويسنده , , Mohamed Saeid، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2008
  • Pages
    15
  • From page
    634
  • To page
    648
  • Abstract
    The present work is related to acoustic in situ free-field measurements of sound absorption in porous materials, such as cellular plastic foams, glass–wool or recycled felt materials. The emphasis is given towards fine metrology of absorption in view of potential industrial applications. A powerful ultrasonic array working at 40 kHz is used. It enables to measure absorption acoustical data down to 100 Hz due to the exploitation of the non-linear ultrasonic demodulation phenomenon in air. Fine measurements of acoustic absorption are compared to numerical predictions based on the “equivalent-fluid” model (when the squeleton frame is motionless), and to some measurements performed on a Brüel and Kjaer impedance tube. Dispersion curves are also measured and compared to the numerical predictions for some automotive felt materials which are compressed at various ratios. Data obtained with a dedicated portable instrument are also discussed for the same type of materials and configurations.
  • Keywords
    Absorption coefficient , “Equivalent fluid” model , Dispersion , Automotive felt , Acoustic in situ measurements , Portable instrumentation , Non-linear high power ultrasonics , Porous materials , Ultrasonic demodulation in air
  • Journal title
    Applied Acoustics
  • Serial Year
    2008
  • Journal title
    Applied Acoustics
  • Record number

    1171057