Journal of KSNVE (소음진동)

The Korean Society for Noise and Vibration Engineering (한국소음진동공학회)
권호 표지

Measurements of the Vibrational Power Flow in Structure Beam by Using the Structural Intensity Method

Structural Intensity 법을 이용한 구조체의 진동전달량 측정

  • ;
  • Tichy, Jiri (Graduate Programs in Acoustics, The Pennsylvania State University)
  • 김흥식 (대한주택공사, 주택연구소) ;
  • Published : 1994.06.01
Download PDF
⟨ Previous Next ⟩

Abstract

This paper presents an experimental method to find the vibrational transmission characteristics of structures by using the structural intensity method which is used as the important techniques of active vibration control method. Experimental results are obtained from measurements performed on a structure beam by 2, 3 and 4 position linear accelerometr array (2, 3 and 4 structural intensity : 2, 3 and 4 S.I.) methods at near and farfield conditions. These results are compared with the measurement values of conventional power flow measurement method called input power measurement in order to verify the accuracy of structural intensity methods. To minimize the errors associated with 2, 3 and 4 S.I. methods, the measurement locations were selected by the result of modal analysis and the averaged data by the inter-change of accelerometer array was utilized. In 3 and 4 S.I. methods measured wavenumber instead of theoretical wavenumber was used. This paper shows that measurements of bending wave power flow by using 2, 3 and 4 S.I. methods can give accurate values under general field conditions in structural beam and the accuracy of 2, 3 S.I. methods is higher than 4 S.I. methods. Finally, 2 position linear accelerometer array method is suggested as the practical structural intensity technique.

Keywords

References

  1. JASA v.47 no.1 Measurement of Power Flow in Uniform Beams and Plates Noiseux,D.U.
  2. Journal of Sound and Vibration v.49 no.2 Measurement of Structure Borne Wave Intensity, Part 1 : Formulation of the Methods Pavic,G.
  3. JASA v.62 Application of the Cross-Spectral Density to a Measurement of Vibration Power Flow between Connected Plates Fahy,F.J.;Pierry,R.
  4. Journal of Sound and Vibration v.70 no.1 Cross Spectral Density Methods for Measuring Structure Borne Power Flow on Beams and Pipes Verheij,J.W.
  5. Technical Research Centre of Finland, Report 583 Measurement of Bending Wave Power Flow by the Structural Intensity Technique Linjama,J.;Lahti,T.
  6. SIVB Riksgransen A Comparison of Structural Intensity Measurement Techniques Bauman,P.D.
  7. CETIM International Congress on Intensity Techniques Optimization of Structural Intensity Measurements for Lightly Damped Structures Wagstaff,P.R.;Bouizem,B.;Henrio,J.C.
  8. Proc. Noise-Con 91 Measurements of the Vibrational Power Flow in Beams and Plates using the structural Intensity Method Xie,H.;Crocker,M.J.
  9. inter-noise 92 Error Induced in Bending Wave Power Measurements Resulting From the Presence of Longitudinal Waves Kay,K.;Swanson,D.C.
  10. PhD. Dissertion, Catholic University of America Structural Response and Power Flow Measurements utilizing Cross Spectra Carrol,G.P.
  11. PhD. Thesis, The Penn. State University Development and Evaluation of Laser Doffler Techniques for Measurements of Flexural and Longitudinal Structural Intensity McDevitt,T.E.
  12. JASA v.77 no.3 Experimental Measurement of Scattered Surface Waves Using a Laser-Doppler Probe Bouchard,G.;Bogy,D.B.
  13. Engineering Applications of Correlation and Spectral Analysis Bendat,J.S.;Piersol,A.G.
  14. Noise-Con 88 Proceedings Comparative Techniques for Structural Intensity in Cylinders Meyer,B.
  15. M. S. Thesis, The Pensylvania State University Measurement of Complex Intensity and Potential Energy Density on Structural Bending Waves Quinlan,D.
  16. B & K Technical Report 30/5 Measurement of Vibration Intensity Rasmussen,P.
  17. Journal of Sound and Vibration v.75 no.4 Statistical Errors in Acoustic Intensity Measurements Seybert,A.F.