Current trends in ultrasonic liquid machining  in mechanical engineering

Prikhodko Vyachyeslav; Nigmetzyanov Ravil; Sundukov Sergey; Fatyukhin Dmitriy

doi:doi:10.30987/2223-4608-2021-8-12-17

Current trends in ultrasonic liquid machining in mechanical engineering

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CURRENT TRENDS IN ULTRASONIC LIQUID MACHINING IN MECHANICAL ENGINEERING

Journal: SCIENCE INTENSIVE TECHNOLOGIES IN MECHANICAL ENGINEERING Volume 2021 № 8 , 2021

Rubrics: SCIENCE INTENSIVE TECHNOLOGIES OF ELECTROMACHINING AND COMBINED PROCESSING (ARCHIVED)

UDK 62 Инженерное дело. Техника в целом. Транспорт

Prikhodko Vyachyeslav ¹

Nigmetzyanov Ravil ²

Sundukov Sergey ³

Fatyukhin Dmitriy ⁴

Author and publication information

Authors:

1. The Moscow State Technical University - MADI (prof.)

Moskva, Moscow, Russian Federation

2. The Moscow State Technical University - MADI («Tehnologiya konstrukcionnyh materialov», docent)

Moskva, Moscow, Russian Federation

3. The Moscow State Technical University - MADI («Tehnologiya konstrukcionnyh materialov», docent)

Moskva, Moscow, Russian Federation

4. The Moscow State Technical University - MADI (department “Construction Materials Technology”, Professor)

Moskva, Russian Federation

Type:

Article

DOI:

https://doi.org/10.30987/2223-4608-2021-8-12-17

Pages:

from 12 to 17

Status:

Published

Received:

18.07.2021

Accepted:

01.09.2021

Published:

01.09.2021

Subject area:

UDK 62 Инженерное дело. Техника в целом. Транспорт

Language:

Russian

Keywords:

ultrasonic technology, mechanical engineering, acoustic flows, cavitation, cavitation erosion

Abstract and keywords

Abstract (English):
Factors defining the effectiveness of ultrasonic liquid processes are considered. There is offered a model of cavitation area formation in the field of a piston transmitter. The recommendations on efficient use of ultrasonic treatment for different technological processes in liquid are shown.

Keywords:
ultrasonic technology, mechanical engineering, acoustic flows, cavitation, cavitation erosion

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References

1. Sundukov, S.K., Fatyukhin, D.S. Application of paint and varnish coatings by pneumatic ultrasonic atomizing // Science Intensive Technologies in Mechanical Engineering. - 2014. - No.4 (34). - pp. 26-31.

2. Kudryashov, B.A., Livansky, A.N., Senin, A.N. Out-looks in use of water-organic emulsions as technological wash-ing environment for ultrasonic cleaning // Science Intensive Technologies in Mechanical Engineering. - 2013. - No.3 (21). - pp. 19-22.

3. Sirotyuk, M.G. Acoustic Cavitation. - M.: Science, 2008. - pp. 271.

4. Prikhodko, V.M. Ultrasonic Technologies in Produc-tion, Operation and Repair of Motor Car and Tractor Machi-nery. - M.: Techpolygraphcenter, 2003. - pp. 253.

5. Makarov, L.O., Prikhodko, V.M., Fatyukhin, D.S. Inter-connection of physical phenomena occurred in near and far areas of ultrasonic piston high-amplitude transmitters // Bulletin of MADI. - 2009. - No.3 (18). - pp. 41-45.

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