TECHNOLOGICAL PECULIARITIES IN NANO-COMPOSITE STRUCTURE FORMATION ON COMPLEX SURFACES UNDER INFLUENCE OF LOW-TEMPERATURE PLASMA
Abstract and keywords
Abstract (English):
The paper reports the consideration of plasma technologies for surface layer strengthening in products, in particular, the strengthening by the impact of low-temperature plasma of the combined discharge allowing the formation of nano-composite structures in a surface layer. By the example of a cutter made of steel R6M5 there are defined basic technological peculiarities of low-temperature plasma strengthening the account of which is possible at the expense of the optimization of parameter values defining the impact of plasma upon a surface. A chart of optimum parameters of a low-temperature plasma strengthening process is obtained. There are presented results of the study of a tool surface layer strengthened with the use of a chart and also tool operation at manufacturing parts made of different materials allowing the establishment of wear resistance increase.

Keywords:
complex surface, strengthening, plasma technologies, nano-composite structures.
Text
Text (PDF): Read Download
References

1. Budinski K.G. Surface Engineering for Wear Resis-tance. - Published by Prentice-Hall, 1988. - 420 p.

2. Bochnowski W. The influence of arc plasma electric and laser treatment on the structure and properties of the high speed steel // Archives of Foundry Engineering, 2009, vol. 9, no. 3, pp. 17-20.

3. Simulation of Heat Transfer in Reversed Polarity Current Plasma Surface Heat Treatment / Yuri Dmitrievich Shitsyn, Dmitry Sergeevich Belinin, Sergey Dmitrievich Neulybin, Dmitry Nikolaevich Trushnikov // Journal of Multidisciplinary Engineering Science and Technology (JMEST), 2015, vol. 2, no. 5, pp. 1166-1168.

4. Combined vacuum plasma surface treatment for in-crease of durability of face milling cutters from high-speed steel: Kombinierte Oberflächenbehandlung durch Vakuum-Plasmatechnik zur Erhöhung der Lebensdauer von Planfräsern aus Schnellerbeitstah / S. Grigoriev, M. Volosova, Y. Melnik, N. Cherkasova // Materialwissenschaft und Werkstofftechnik, 2015, vol. 46, no. 1. pp.10-15.

5. Grigoriev S.N., Metel A.S., Fedorov S.V. Modification of the structure and properties of high-speed steel by combined vacuum-plasma treatment // Metal Science and Heat Treatment, 2012, vol. 54, no. 1-2,. pp. 8-12.

6. Dearnaley G. Ion Implantation and Ion Assisted Coatings for Wear Resistance in Metals // Surf. Eng., 1986, vol.2, pp. 213-221.

7. Grigoriev S.N., Melnik Yu.A., Metel A.S. Gas dis-charge source of metal vapor and fast gas atoms// Instruments and Experimental Techniques, 2013, vol. 56, no 3, pp. 358-364.

8. Grigoriev S.N., Metel A.S., Volosova M.A., Melnik Y.A. Surface hardening by means of plasma immersion ion implantation and nitriding in glow discharge with electrostatic confinement of electrons // Mechanics and Industry, 2015, vol. 16, no. 7, 6 p.

9. Previous heat treatment inducing different plasma nitriding behaviors in martensitic stainless steels / C.A. Figueroa, F. Alvarez, D.RG. Mitchell, G.A. Collins, K.T. Short // Journal of Vacuum Science and Technology Part A: International Journal Devoted to Vacuum, Surfaces, and Films, 2006, 24 (5), pp. 1795-1801.

10. Brzhozovsky, B.М., Martynov, V.V., Zinina, Е.P., Pleshakova, Е.S. Analysis of possibilities in dissipative structure formation in surface layer of cutter working part // Science Intensive Technologies in Mechanical Engineering. - 2015. - № 9(51). - pp. 28-37.

Login or Create
* Forgot password?