Effects of Electrolyte Plasma Carbonitriding on Tribological Properties of High Speed Steel

Mazhyn Skakov; Bauyrzhan Rakhadilov; Michael Sсheffler

doi:10.4028/www.scientific.net/AMR.712-715.7

Paper Titles

Preface and Conference Organization

Effect of Fluoride Conversion Coating on Corrosion of Behavior of Mg-Ca-Zn Alloy
p.3

Effects of Electrolyte Plasma Carbonitriding on Tribological Properties of High Speed Steel
p.7

Modification of Stainless Steels Surface Layers by Nitriding and Carbonitriding
p.12

Heat Treatments of W6Mo5Cr4V2Si High Speed Steel
p.17

Temperature Prediction Model for Molten Steel in RH Refining Process
p.22

Technique Equipment Parameters Design of Titanium & Titanium Alloys Oxidizing for Large Area and Batch-Type Production
p.26

Study on Mechanical Properties of High Aluminum Zinc-Based Alloys with Different Al Contents Ranging from 30 wt% to 50 wt%
p.30

Modeling of Non-Isothermal Austenite Formation in Cr5 Roller Steel
p.34

HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 712-715Effects of Electrolyte Plasma Carbonitriding on...

Effects of Electrolyte Plasma Carbonitriding on Tribological Properties of High Speed Steel

Abstract:

This paper presents research of influence electrolyte plasma carbonitriding on tribological properties of R6M5 high-speed steel. Shows perspectiveness of carbonitriding high-speed steels in electrolyte plasma. The results of research demonstrated increasing wear-resistance of R6M5 steel after carbonitriding in electrolyte plasma. Under the same test conditions by the method of scratch-test have been determined that the depth of the scar of a modified layer has become less in comparison with the original sample, which indicates a significant increase of wear-resistance and hardness of the surface carbonitriding layer R6М5 steel. It was set that after electrolytic-plasma carbonitriding abrasive wear-resistance of the surface layers of R6M5 steel is increased by 25%. Introduction

You might also be interested in these eBooks

Advances in Manufacturing Science and Engineering

View Preview

Info:

Periodical:

Advanced Materials Research (Volumes 712-715)

Pages:

7-11

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.712-715.7

Citation:

Cite this paper

Online since:

June 2013

Authors:

Mazhyn Skakov, Bauyrzhan Rakhadilov, Michael Sсheffler

Keywords:

Carbonitriding, Electrolytic Plasma, High-Speed Steel, Modification, Tribological Property

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

Citation:

References

[1] Vereshchaka A.S. Rabotosposobnost' rezhushego instruments s iznosostoykimi pokritiyami. - M.: Mashinostroeniye, 1993.

Google Scholar

[2] Lakhtin U.M., Kogan Y.D., Shpis G., Bemer Z. Teoriya i tehnologiya azotirovaniya: Monografiya. – M.: "Metallurgiya", 1991.– 320 s.

Google Scholar

[3] Gupta P., Tenhundfeld G., Daigle E.O., Ryabkov D. Electrolytic plasma technology: Science and engineering – an overview // Surf. &Coat. Technol. 2007. V. 25. P. 87-96.

DOI: 10.1016/j.surfcoat.2006.11.023

Google Scholar

[4] Suminov I. V., Belkin P.N. i dr. Mir materialov i tehnologyi. V 2-h tomah, Tom 1, M. izd. Tehnosfera, 2011, - 464 s.

Google Scholar

[5] Gol'dshteyn M. I., Grachev S. V., Veksler U. G. Spetsialniye stali. – M. Metallurgiya, 1985. – 408s.

Google Scholar

[6] Skakov M.K., Rakhadilov B.K., Scheffler M., Change of structure and wear resistance of P6M5 steel for processing in electrolyte plasma // Tribology, 2012, №5 – P.164-171.

Google Scholar

[7] Rakhadilov B. K., Skakov M.K. Vliyanie electrolitno-plazmennoy obrabotki na strukturu, fazoviy sostav i mikrotverdost' stali R6M5// Vestnik KazNTU №3 (91), - Almati, 2012, s.81-87.

Google Scholar

[8] Skakov M.K., Rakhadilov B.K. Scheffler M., Modification of structure and properties of steel Р6М5 at electrolyte plasma treatment // Advanced Materials Research/ Vol. 601, 2013 - pp.64-68.

DOI: 10.4028/www.scientific.net/amr.601.64

Google Scholar

[9] Godec M., SetinaBatic B., Mandrino D., Nagode A., Leskovsek V., Skapin S.D., Jenko M.: Characterization of the carbides and the martensite phase in powder metallurgy high-speed steel, Materials Characterization 61 (2010), pp.452-458

DOI: 10.1016/j.matchar.2010.02.003

Google Scholar

[10] Osnovi tribologii (treniye, iznos, smazka)// E. D. Braun, N.A. Brushe, I. A. Buyanoskiy i dr./Pod red. A. V. Chichinadze: Uchebnik dlya tehnicheskih VUZov, 2-e izdaniye, M.: Tsentr "Nauki I tehniki", 2001, 778 s.

Google Scholar

[11] Beliy A. V., Karpenko G.D., Mishlin N. K. Struktura i Metodi formirovaniya iznosostoikih poverhnostnih sloev. – Moskva: Mashonostroniye, 1991; 209 s.

Google Scholar

[12] Rakhadilov B.K., Skakov M.K., Scheffler M. Changing of Structure and Mechanical Properties of P6M5 Steel for Nitriding and Carbonitriding in Electrolyte Plasma / VOLUME II The 7th International Forum on Strategic Technology «IFOST2012», Tomsk, September 17-21, 2012, р.202-206.

DOI: 10.1109/ifost.2012.6357727

Google Scholar