OJA  Vol.3 No.3 A , September 2013
Increase Activity Cavitations in Liquids and Melts at Ultrasonics Processing
Abstract: Increase of efficiency of cavitation processes in liquids and melts is reached by gas cavities saturation with the sizes not exceeding the resonant sizes of cavitation germs. Gas saturation of liquids and melts raises level of cavitation pressure upon 20% - 25% that intensifies US processing: cleaning, soldering and metallization.
Cite this paper: V. L. Lanin, "Increase Activity Cavitations in Liquids and Melts at Ultrasonics Processing," Open Journal of Acoustics, Vol. 3 No. 3, 2013, pp. 13-15. doi: 10.4236/oja.2013.33A003.

[1]   S. P. Kundas, V. L. Lanin, A. P. Dostanko, M. D. Tyavlovsky, V. A. Bursky and V. S. Tomal, “ Ultrasonic Processes in Electronics Production,” Best Print, Minsk, 2003.

[2]   D. Ensminger and L. J. Bond, “Ultrasonics: Fundamentals, Technologies, and Applications,” CRC Press, Boca Raton, 2012.

[3]   T. G. Leighton, “The Acoustic Bubble,” Academic Press, London, 1994.

[4]   H. Harada, H. Yoshida and H. Kato, “The Intensity of MBSL and Chemical Power in Pure Water with Various Dissolved Gases at 2,4 MHz,” Proceeding of the 11th Meeting of the European Society of Sonochemistry, La Grande-Motte, 1-5 June 2008, pp. 163-164.

[5]   O. V. Abramov, “High-Intensity Ultrasonics: Theory and Industrial,” OPA, Amsterdam, 1998.

[6]   V. L. Lanin, “Activation of Soldered Connections in the Process of Formation Using the Energy of Ultrasonic and Electric Fields,” Surface Engineering and Applied Electrochemistry, Vol. 44, No. 3, 2008, pp. 235-240.

[7]   V. L. Lanin, “Activation of Ultrasonic Clearing in the Liquid Environments,” Proceedings of the 4th Conference on Application of Power Ultrasound in Physical and Chemical Processing, Besancon, 22-23 May 2003, pp. 210-213.

[8]   V. L. Lanin, “Cavitation Intensity Measurements in Melts,” Proceeding of the 16th International Symposium on Nonlinear Acoustics,” Moscow, 19-23 August 2002, pp. 1019-1022.