TECHNICAL MECHANICS
ISSN (Print): 1561-9184, ISSN (Online): 2616-6380

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UDC 621. 002. 56

Technical mechanics, 2014, 3, 100 - 114

SMAKING AND PROPERTIES OF MAGNETRON CHROME COATING ON WORKING SURFACES OF TITANIUM ACTUATING HYDRAULIC CYLINDER

A. D., Grinyuk S. I., Antonyuk S. L., Boychenko V. A., Kovalenko V. V.

      ABSTRACT

      The application of a magnetron technology with ion-plasma assisting is validated for developing a new technology for nanostructurizated chrome coating on the working surfaces of titanium hydraulic cylinders instead of a galvanic technology for solid chrome coating. An experimental practice for chrome coating on prototypes of parts is developed. Mechanical characteristics of the coating obtained are studied. It is shown that mechanical characteristics of coating, based on the magnetron technology with energetic assisting, are significantly surpassed the corresponding characteristics of galvanic solid chrome coating. The results obtained are useful in improving a technological base of aircraft machine-building and an engineering level of landing gears for the An family of aircrafts. Pdf (English)







      KEYWORDS

magnetron technology with ion-plasma assisting; application of nanostructurized chrome coating; mechanical characteristics of coatings

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      REFERENCES

1. Andrievsky R. A. Nanostructurized materials: state of developments and applications (in Russian) / R. A. Andrievsky // Perspectivnye Materialy. – 2001. – No 6. - P. 5 – 11.

2. Grishkevich A. D. Nanostructurized coatings as an alternative to chroming inner surfaces (in Russian) / A. D. Grishkevich // Tekhnicheskaya Mekhanika. – 2013. – No 3. – P. 3 – 13.

3. Technological plasma facilities based on discharge with closed drift of electrons (in Russian) // A. D. Grishke-vich, S. I. Grinuyk, V. V.Kovalenko, Yu. P. Kuchugurnyi // Tekhnicheskaya Mekhanika. – 2013. – No 4. – p. 43 – 57.

4. Special features of use of titanium alloys, stainless steels, metal composites and antifrictional materials for gear of modern airplanes (in Russian) / V. I. Ryabkov, L. V. Kapitonova, Yu. V. Babenko, V. A. Trofimov, N. N. Bychkova // Aviatsiono-Kosmochnaya Tekhnika i Tekhnologiya. - 1998. – Is. 1. – P. 6 – 15.

5. Bogdanovich V. I. Application of titanium for units of spacecraft friction pairs (in Russian) / V. I. Bogdano-vich, V. I. Mikhlin, I. L. Dokunina // Problemy Mashinostroyenie. – 1998. – No 2,3. – P. 100 – 103.

6. Vacuum Arc (in Russian) / I. I. Aksenov, A. A. Andreev, V. l. Belous, V. Ye. Strelnitsky, V. M. Khoroshikh. – Kiev: Naukova Dumka, 2012. – 727 p.

7. Kuzmichev A. I. Magnetron Sputtering Systems. Book 1. Introduction in Physics and Technique of Magnetron Sputtering (in Russian) / A. I. Kuzmichev. – Kiev: Avers, 2008. – 244p.

8. Structure, mechanical behavior and nanohardness of polycristal chrome and molybdenum coatings based on magnetron sputtering (in Russian) / S. A. Firstatov, T. G. Rogul, V. L. Svechnikov, et al. // Metallofizika i Noveyshie Tekhnologii. – 2003. – Vol. 25, No 9. – P. 1153 – 1164.

9. Rakitsky A. N. Structure of deposited chrome in magnetron sputtering (in Russian) / A. N. Rakitsky // Poroshkovaya metallurgiya. – 1992. – no 2. – P. 56 - 63.

10. Grishkevich A. D. Application of functional coating to inner wall of axisymmetric product of small diameter (in Russian) / A. D. Grishkevich // Problemy Vysokotemperaturnoy Tekhniki. – 2011. - P. 37 – 41.

11. Patent for Invention No 38845U, Ukraine, IPC C23C 14/00. Plasma Device / Grishkevich A. D. : applicant and patentee Institute of Technical Mechanics, NASU&SSAU. – u200808700; filed 01.07.2008; published 26.01. 2009, Bul. No 2. – 4 p.

12. Gorelik S. S. X-Ray and Electron - Optic Analysis (in Russian) / S. S. Gorelik, Yu. A. Skakov, L. N. Ras-torguev. – Moscow: MISIS, 2002. – 366 p.

13. Nanostructurized Coatings (in Russian). Edited by A. Cavaleyro and D. de Hosson. – Moscow: Tekhnosfera, 2011. – 752 p.

14. Aznakayev E. Micron - gamma for estimation the physico-mechanical properties of micromaterials / E. Aznakayev // Proc. of the Internat. ñonf. “Small Talk-2003”. – San Diego, California, USA, 2003. ? TP.001. – Ð. 8.

15. ISO 14577-1:2002(E). Instrumented indentation test for hardness and materials parameters. Part 1: Test meth-od. Date: 2002-09-22

16. Oliver W. C. An improved technique for determining hardness and elastic modulus using load and displace-ment sensing indentation experiments / W. C. Oliver, G. M. Pharr // J. Mater. Res. – 1992. – Vol. 7, ¹ 6. – P. 1564 – 1583.

17. Identification of structure state of materials by method of automatic indentation (in Russian) / V. F. Gorban, N. A. Mameka, E. P. Pechkovsky, S. A. Firstov // Collected Papers of Kharkov Nanotechnological Assembly, Vol. 1. Nanostructurized Materials. – Kharkov, 2007. – p. 52 – 55.

18. Grishkevich A. D. Studies of link between mechanical and fatigue characteristics of magnetron chrome coat-ing (in Russian) /A. D. Grishkevich // Tekhnicheskaya Mekhanika. – 2014. – No. 3. – P. 94 – 99.





Copyright (©) 2014 A. D., Grinyuk S. I., Antonyuk S. L., Boychenko V. A., Kovalenko V. V.

Copyright © 2014-2018 Technical mechanics


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