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An experimental investigation of the finite amplitude wave in the nearfield

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
International Symposium on HYDROACOUSTICS AND ULTRASONICS EAA Symposium (formerly 13th FASE Symposium) Gdańsk-Jurata, 12-16 May 1997
Języki publikacji
EN
Abstrakty
EN
An experimental investigation of the pressure field distribution produced by a piane circular piston in water were carried out applying two receivers of different size. A transducer of 46-mm-diam and 1,O-MHz center frequency was used as a transmitter. The PVdF needle hydrophone of l mm diameter was the first receiver, whereas the second one bad a diameter equal to that of the source. All experiments were performed using a high precision computer-controlled tank facility.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
79--82
Opis fizyczny
Bibliogr. 17 poz., rys.
Twórcy
autor
  • Naval Academy ul. Śmidowicza 71,81-919 Gdynia, Poland
autor
  • Naval Academy ul. Śmidowicza 71,81-919 Gdynia, Poland
Bibliografia
  • 1. I. Aanonsen, T. Barkve, 1. Naze Tjøtta, S. Tjøtta, (1984), Distortion and harmonic generation in the nearfield of a finite amplitude saun d beam, 1. Aeoust. Soc. Am., 75, 749-768.
  • 2. K. Beissner, (1981), Exact integral expression for the diffraction los of a circular piston source, Acustica, 49, 212-217.
  • 3. A. C. Baker, K. Anastasiadis, V. F. Humprey, (1988), The nonlinear pressure field of a pIane circular piston: Theory and experiment, J. Acoust. Soc. Am., 84, 1483-1487.
  • 4. A. C. Baker, (1992), Nonlinear pressure fields due to focused circular apertures, J. Acoust. Soc. Am., 91, 713-717.
  • 5. A. C. Baker, A. M. Berg, A. Sahin, J. Naze Tjøtta, (1995), The nonlinear pressure field of a pIane, rectangular apertures: Experimental and theoretical results, J. Acoust. Soc. Am., 97, 3510- 3517.
  • 6. D. Cathignol, J. Y. Chapelon, (1993), High energy ultrasound therapy, Part I and Part II, Advances in nonlinear acoustics, World Scientific, London, 21-35.
  • 7. W. N. Cobb, (1983), Finite amplitude method for the determination of the acoustic nonlinear parameter B/A, J. Acoust. Soc. Am., 73, 1525-1531.
  • 8. J. Dybedal, TOPAS: Parametric end-fire array used in offshore applications, Advances in nonlinear acoustics, WorId Scientific, London, 264-269.
  • 9. L. Filipczyński, J. Etienne, M. Piechocki, (1992), Au attempt to reconstruct the lithotripter shock wave pulse in kidney: Possible temperature effects, Med. Biol., 18, 569-577.
  • 10. L. Germain, J. D. N. Cheeke, (1988), Generation and detection of high order harmonics in liquids using a scanning acoustic microscopy, J. Acoust. Soc. Am., 83, 942-949.
  • 11. X. F. Gong, X. Z. Liu, (1993), Acoustical nonlinearity parameter and its medical applications, Advances in nonlinear acoustics, World Scientific, London, 353-357.
  • 12. F. Ingenito, A. O. Williams Jr., (1971), Calculation of second harmonic generation in a piston beam, J. Acoust, Soc. Am., 49, 319-328.
  • 14. E. Kozaczka, G. Grelowska, (1994),Nonlinearity parameter B/A of the lew-salinity saewater, Arch. Acoust., 19, 259-270.
  • 15. E. Kozaczka, G. Grelowska, (1996), Investigation of the nonliaearity parameter B/A in the South Baltle Sea, Nonlinear acoustics in perspective, Nanjing University Press, 88-93.
  • 16. S.-W. Li, Z.-X. Xu, (1996), Tbe harmonie nearfield of a narrow strip transducer, Nonlinear 82 acoustics in perspective, Nanjing University Press, 200-205.
  • 17. J. A. TenCate, (1993), An experimental investigation of the nonlinear pressure field produced by a pIane circular piston, J. Acoust. Soc. Am., 94, 1084-1089.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f2c03862-eaf6-40bf-9a5f-94ab46ff30e4
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