Development and Research of Concentrator-Sonotrode with Increased Radiating Surface

• Autorzy: Khmelev S. S. , Khmelev V. N. , Golykh R. N. , Shalunov A. V.

Identyfikatory

DOI

10.1515/aoa-2015-0015

• Języki publikacji: EN

Abstrakty

EN

This paper presents the results of studies on functional possibilities of the optimization of geometric sizes and the design development of specialized resonance concentrating link (concentrator-sonotrode) with enlarged radiating surface. Developed theoretical model allows to determine the value of longitudinal and transverse sizes of each part of concentrating link providing the achievement of required features of the ultrasonic vibrating systems (gain factor of the unit and its resonance frequency). To verify the efficiency of designed model, the geometric sizes of resonance concentrating link were determined using the finite-element complex, which showed that the disagreement did not exceed 10%. The efficiency of proposed model at the determining of size and resonance characteristics of concentrating link was proved by the experiments. Theoretical and experimental studies helped to optimize the size of concentrating link while the vibrating system developed on its base enabled the enlargement of radiating surface without decreasing the radiation intensity for the realization of technologies of cavitation treatment of liquid media.

Słowa kluczowe

EN

ultrasound; ultrasonic vibrating system; resonance concentrating link; concentrator; gain factor

• Wydawca: Instytut Podstawowych Problemów Techniki PAN ; Komitet Akustyki PAN ; Polskie Towarzystwo Akustyczne
• Czasopismo: Archives of Acoustics
• Rocznik: 2015
• Tom: Vol. 40, No. 1
• Strony: 129--135
• Opis fizyczny: Bibliogr. 8 poz., rys., tab., wykr., fot.

Twórcy

autor

Khmelev S. S.

• Biysk Technological Institute (branch) of the AltSTU, 659305, Biysk, Russia

autor

Khmelev V. N.

• Biysk Technological Institute (branch) of the AltSTU, 659305, Biysk, Russia

autor

Golykh R. N.

• Biysk Technological Institute (branch) of the AltSTU, 659305, Biysk, Russia

autor

Shalunov A. V.

• Biysk Technological Institute (branch) of the AltSTU, 659305, Biysk, Russia

Bibliografia

• 1. Khmelev V.N., Lebedev A.N., Tsyganok S.N. (2003), Computer-Aided Design of Ultrasonic Oscillating Systems [in Russian], Tula State University Journal: Selecta by the Members of the Second International Electronic Scientific and Technical Conference, pp. 14–18, Tula.
• 2. Khmelev V.N., Leonov G.V., Barsukov R.V., Tsyganok S.N., Shalunov A.V. (2007), Ultrasonic Multi- and Single-Purpose Stimulators of Processes in Industry, Agriculture and Housekeeping [in Russian], Altai State Technical University Publisher, Biysk.
• 3. Khmelev V.N., Tsyganok S.N., Levin S.V., Demyanenko M.V., Shakura V.A. (2014), Development and Investigating of Piezo-Transducer for Control of Amplitude of Radiating Surfaces Ultrasonic Oscillations [in Russian], Polzunovsky vestnik, 2, 88–91.
• 4. Leonov G.V., Khmelev V.N., Savin I.I., Abramenko D.S. (2007), Vibration Amplitude Measuring Method, Russian Federation Patent #2292530, ipc g01h 9/00.; the applicant and patent holder is I.I. Polzunov Altai State Technical University., No. 2005111032/28, application of 14.04.05; published on 27.01.07.
• 5. Merkulov L.G. (1957), Theory of Compound Concentrators [in Russian], Acoustic Journal, 3, 3.
• 6. Merkulov L.G., Kharitonov A.V. (1959), Theory and Design of Compound Concentrators [in Russian], Acoustic Journal, 5, 2.
• 7. Peshkovskiy S., Friedman M., Hawkins W. (2007), Ultrasonic Rod Waveguide-Radiator, United States Patent 7156 201, January 2, 2007.
• 8. Peshkovsky S., Peshkovsky A. (2008), High Capacity Ultrasonic Reactor System, International Application no.: PCT/US2008/068697, International Filing Date: 30.06.2008.