ОБРАБОТКА ЭЛЕКТРОИСКРОВЫХ ПОКРЫТИЙ МЕТОДОМ УЛЬТРАЗВУКОВОГО ПЛАСТИЧЕСКОГО ДЕФОРМИРОВАНИЯ
Аннотация и ключевые слова
Аннотация (русский):
Приведены результаты исследований по установлению закономерностей изменения параметров шероховатости поверхности электроискровых покрытий в зависимости от различного количества (0, 1, 3, 6, 12, 24, 50) выглаживающих проходов с использованием установки безабразивной ультразвуковой финишной обработки (БУФО), в основе которой реализован метод ультразвукового пластического деформирования.

Ключевые слова:
электроискровое легирование, обработка, деформирование, интерметаллидный сплав, шероховатость, поверхность, ионное травление, кристаллиты
Список литературы

1. Heard, D.W. Development of a nanostructure microstructure in the Al–Ni system using the electrospark deposition process / D.W. Heard, M. Brochu // Journal of Materials Processing Technology. 2010. - P. 892–898.

2. Верхотуров, А.Д. Формирование поверхностного слоя при ЭИЛ / А.Д. Верхотуров. - Владивосток: Дальнаука, 1995. - 323 с.

3. Gould, J. Application of Electro–Spark Deposition as a Joining Technology / J. Gould // Welding Journal, 2011. - Vol. 90. - P. 191–197.

4. Leo, P. Study of the Direct Metal Deposition of AA2024 by Electro Spark for Coating and Reparation Scopes / P. Leo, G. Renna, G. Casalino // Applied Sciences, 2017. - Vol. 7. - P. 1–16.

5. Tarelnyk, V. Modeling Technological Parameters for Producing Combined Electrospark Deposition Coatings / V. Tarelnyk, I. Konoplianchenko, N. Tarelnyk, A. Kozachenko // Materials Science Forum, 2019. - Vol. 968. - P. 131–142.

6. Radek, N. Laser treatment of electro–spark coatings deposited in the carbon steel substrate with using nanostructured WC–Cu electrodes / N. Radek, K. Bartkowiak // Physics Procedia, 2012. - Vol. 39. - P. 95-301.

7. Bagliuk, G. Surface hardening of metallic materials by use of combined mat–forming treatment and electrospark doping / G. Bagliuk, V. Makovey, Yu. Borodiy // International Scientific Journals of Scientific Technical Union of Mechanical Engineering «Industry 4.0» Machines. Technologies. Materials, 2019. - Vol.13. - Is. 1. - P. 15–18.

8. Mikhailyuk, A. I. Features of plastic deformation of electrospark coatings and ways for improvement of their strength characteristics at friction / A. I. Mikhailyuk, R. P. Zhitaru // Surface Engineering and Applied Electrochemistry, 2008. - Vol. 44. - No. 5. - P. 383–389.

9. Rakhimyanov, Kh. Technological Peculiarities Providing the Surface Quality Parameters at Ultrasonic Surface Hardening / Kh.Rakhimyanov, J. Semyonova, A. Eryomina // Applied Mechanics and Materials, 2015. - Vol. 698. - P. 482–486.

10. Khimukhin, S.N. Nickel aluminides coatings on steel С1030 after thermal cycling / S.N. Khimukhin, K.P. Eremina, H. Ri // Materials Today: Proceedings, 2019. - No 11. - P. 240–246.

11. Application guide manual for surfcom series surface roughness and waviness parameters. – Tokyo, Japan: Tokyo Seimitsu CO., LTD. – 96 p.

12. ISO 13565–2 – Geometrical Product Specifications (GPS) – Surface Texture: Profile method; Surfaces having Stratified Functional Properties – Part 2: Height Characterization Using the Linear Material Ratio Curve; International Organization for Standardization: Geneva, Switzerland, 1996.

13. Schneider, U. An approach to the evaluation of surface profiles by separating them into functionally different parts / U. Schneider, A. Steckroth, N. Rau, G.Hobner // Surface Topograhpy, 1988. - Vol.1. - P. 343–355.

14. Pawlus, P. Reverse Problem in Surface Texture Analysis – One–Process Profile Modeling on the Basis of Measured Two–Process Profile after Machining or Wear / P. Pawlus, R. Reizer, M. Wieczorowski // Materials, 2019. - Vol.12. - 12 p.

15. Muralikrishnan, B. Functional Filtering and Performance Correlation of Plateau Honed Surface Profiles / B. Muralikrishnan, J. Raja // Journal of Manufacturing Science and Engineering, 2005. - Vol. 127. - P. 193–197.

16. Graham, T. Smith. Industrial Metrology. Surfaces and Roundness. U.K. London: Springer / T. Graham, 2002. - 338 p.

17. Rosén, B.G. Wear of cylinder bore microtopography / B.G. Rosén, R.Ohlsson, T.R. Thomas // Wear, 1996. - Vol. 198. - Is. 1–2. - P. 271–279.

18. Khimukhin, S.N. The structure of the intermetallic coating after ultrasonic burnishing process / S.N.Khimukhin, K.P.Eremina, H.Ri // Materials Today: Proceedings. 2019. - No 19. - P. 2413 –2416.

Войти или Создать
* Забыли пароль?