A Promising Method for Improving Wear Resistance of Metal Cutting Tools

Alexander G. Ovcharenko; Andrey Yu. Kozlyuk; Mikhail O. Kurepin

doi:10.4028/www.scientific.net/AMM.788.325

Paper Titles

Wear Resistance of Hypereutectoid Steel Alloyed with Copper and Aluminum
p.274

Wear-Resistant Coating on Hard Alloy
p.281

X-Ray Studies of Welded Joints of Ferrite-Pearlite Steels Working in Conditions of Low-Frequency Temperature and Force Loading
p.286

Analysis and Technology of the Bricard Linkage Kinematic Parameters Comparative Experiments
p.295

Equipment for In Situ Studies of the Surface Structure of Thin Surface Layers in the Process of their Formation
p.301

Metal Explosion Chambers and their Application
p.306

Prospective Designs of Flap Grinding Wheels – New Opportunities and Approaches to Import Substitution of Grinding Tools
p.313

Specifications of Machine-Tool Equipment: Forecasting Techniques
p.318

A Promising Method for Improving Wear Resistance of Metal Cutting Tools
p.325

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 788A Promising Method for Improving Wear Resistance...

A Promising Method for Improving Wear Resistance of Metal Cutting Tools

Abstract:

Abstract. A promising method for improving wear resistance of metal cutting tools including pre-heating and a subsequent impact of the pulsed magnetic field of high intensity on the cutting tool is proposed. The experimental setup and methods of research are described. Experimental studies of surfaces of carbide reversible cutting plates of the VK8, T15K6 alloy and drills of high speed steel R6M5 to assess the effectiveness of the proposed method were performed. An increase in wear resistance of cutting tools made of the T15K6 hard-alloy plates by 30% and made of the VK8 alloy plates by 13% was revealed while wear resistance of drills made of steel R6M5 increased on average by 58% The proposed method can be of practical interest for hardening the surface of other types of tools and machine parts for further experimental verification.

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Periodical:

Applied Mechanics and Materials (Volume 788)

Pages:

325-329

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.788.325

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Online since:

August 2015

Authors:

Alexander G. Ovcharenko, Andrey Yu. Kozlyuk, Mikhail O. Kurepin

Keywords:

Carbide Tools, Hardness, Magnetic-Pulse Processing, Metal Cutting Tool, Surface Hardening, Wear Resistance

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References

[1] B.V. Malugin, Magnitnoe uprochnenie instrumenta i detalej, Moscow, Mechanical Engineering, 1989. (in Russian).

Google Scholar

[2] A.G. Ovcharenko, A. Yu. Kozlyuk, M.O. Kurepin, Induktory dlya magnitno-impulsnoj obrabotki instrumentov razlichnoj formy, Obrabotka metallov (tekhnologiia, oborudovanie, instrumenty) 3(2008) 11-12. (in Russian).

Google Scholar

[3] I.V. Beluy, S.M. Fertik, L.T. Khimenko, Spravochnik po magnitno-impulsnoj obrabotke metalov, Kharkiv, Vishcha School, 1977. (in Russian).

Google Scholar

[4] A.G. Ovcharenko, A. Yu. Kozlyuk, M.O. Kurepin etc, Issledovanie vliyaniya kombinirovanoj magnitno-impulsnoj obrabotki na kachestvo tverdosplavnogo instrumenta, Obrabotka metallov (tekhnologiia, oborudovanie, instrumenty) 3(2011).

Google Scholar

[5] D.D. Mishin, Magnitnye materialy, Moscow, Higher School, 1981. (in Russian).

Google Scholar

[6] V. M. Bashkov, P. G. Katsev, Ispytaniya rezushego instrumenta na stojkost, Moscow, Mechanical Engineering, 1985. (in Russian).

Google Scholar