Influence of Electrolyte Plasma Treatment on Structure, Phase Composition and Microhardness of Steel Р6М5

Mazhin Skakov; Bauyrzhan Rakhadilov; Michael Sheffler

doi:10.4028/www.scientific.net/KEM.531-532.627

Paper Titles

Preparation of Poly(γ-Glutamic Acid)/Montmorillonite Superabsorbent Nanocomposite
p.609

Synthesis of Zinc Doped-Biphasic Calcium Phosphate Nanopowder via Sol-Gel Method
p.614

Microstructure and Melting Behavior of Rapid Solidified Au-Ag-Ge Alloy
p.618

Effect of Accumulative Roll Bonding Process with Inter-Cycle Heat Treatment on Microstructure and Microhardness of AA1050 Alloy
p.623

Influence of Electrolyte Plasma Treatment on Structure, Phase Composition and Microhardness of Steel Р6М5
p.627

Microstructure and Piezoelectric Properties of (0.996-x) K_0.5Na_0.5NbO₃ - 0.004 BiFeO₃ - x LiSbO₃ Ceramics
p.632

Crystal Structure Analysis on Aramid Fiber/Fibrids and Paper by Polarized Light Microscopy
p.636

Study on Microstructures of Polycarboxylate-Type Superplasticizers with Different Side Chains
p.640

Microstructure, Interface and Hardness of Ti/TiN Nanolayered Coatings
p.645

HomeKey Engineering MaterialsKey Engineering Materials Vols. 531-532Influence of Electrolyte Plasma Treatment on...

Influence of Electrolyte Plasma Treatment on Structure, Phase Composition and Microhardness of Steel Р6М5

Abstract:

Microhardness of nitrated and carbonitriding in electrolyte plasma steel Р6М5 surface layers are investigated in the research. It shows perspectiveness of the cutting tool electrolyte-plasma treatment technology. Operating conditions for the technology realization are defined. It was also indicated the desired content of components in saturating mixtures by nitriding and carbonitriding. Comparative research of structure, phase composition of fast-cutting P6M5 steel modified surface layers after electrolyte plasma treatment was carried out by scanning-electron and light microscopy, and X-ray structure analysis methods. The way of electrolytic plasma nitriding in cathodic mode, to provide fast-cutting steels which allows for modification the surface and high kinetic efficiency the process diffusion saturation. It was established that as a result of nitriding and nitrocarburizing in plasma electrolyte has been a significant increase in microhardness in the surface layers of steel Р6M5.

You might also be interested in these eBooks

View Preview

Info:

Periodical:

Key Engineering Materials (Volumes 531-532)

Pages:

627-631

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.531-532.627

Citation:

Cite this paper

Online since:

December 2012

Authors:

Mazhin Skakov, Bauyrzhan Rakhadilov, Michael Sheffler

Keywords:

Carbonitriding, Electrolytic Plasma, Formatting, Modification, Nitriding

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Beliy A.V., Karpenko G.D., Mishkin N.K. Struktura i metod iformirovania iznosostoikih poverhnostnih sloev. – M.: Mashinostroenie, 1991. – p.208

Google Scholar

[2] M. Bayati, Molei R. Zhanhorban K. poverhnostnoelegirovanieuglerodistihstaleiizelektricheskoiplazmi // Metallovedenie I termicheskayaobrabotkametallov, 2011, № 2 (668), pp.42-45.

Google Scholar

[3] S.F. Zabelin. Ob aktivatsi I kineticheskoiteoriiprotsessovdiffuzionnogonasisheniametallovprihimiko-termicheskoiobrabotke // Materialovedenie, 2004, № 7, pp.17-22. Sumin, Belkin, P.N. etc. Mir materialov I tehnologii.V 2-h tomah, Tom 1, M. izd.Tnosfera, 2011, - 464 p.

Google Scholar

[4] Saraev Y.N. Barns, Shtertser A.A. Orishin A.M., Ilyushenko A.F., SkakovM.K. Kompleksnipodhod k povisheniyekspluatatsionnoinadiojnostidetalei I izdelii // Tehnologiamashinostroenia, 2011, № 8, pp.39-42.

Google Scholar

[5] Suminov Y,V., Belkin, P.N. etc. Mir materialov I tehnologii.V 2-h tomah, Tom 1, M. izd.Tnosfera, 2011, - 464 p.

Google Scholar

[6] Gupta P., Tenhundfeld G., Daigle E.O., Ryabkov D. Electrolytic plasma technology: Science and engineering - an overview / / Surf. & Coat. Technol.In 2007. V. 25. P. 8746.

DOI: 10.1016/j.surfcoat.2006.11.023

Google Scholar

[7] LA Poznyak, Tishaev S.I., YM Skrynchenko. Instumentalniestali: Spravochnik. Moscow: Metallurgiya, 1977, 167 p.

Google Scholar

[8] LS Kremnev, Vinogradova, L.A., A.K. Onegin, Sapronov I.J. Osobennostisostava, strukturi I svoistvbistrorezhushihstaleidliametallorejushegoinstumenta s ionno-plazmennimipokritiaminaosnovenitridatitana // Metallovedenie I termicheskayaobrabotkametallov, 2012, № 1 (679), pp.4-9.

Google Scholar