Impact of Magnetic-Pulse and Chemical-Thermal Treatment on Alloyed Steels’ Surface Layer

Kateryna Kostyk; Ivan Kuric; Milan Saga; Viktoriia Kostyk; Vitalii Ivanov; Viktor Kovalov; Ivan Pavlenko

doi:10.3390/app12010469

Applied Sciences (Jan 2022)

Impact of Magnetic-Pulse and Chemical-Thermal Treatment on Alloyed Steels’ Surface Layer

Kateryna Kostyk,
Ivan Kuric,
Milan Saga,
Viktoriia Kostyk,
Vitalii Ivanov,
Viktor Kovalov,
Ivan Pavlenko

Affiliations

Kateryna Kostyk: Department of Foundry, Educational and Scientific Institute of Mechanical Engineering and Transport, National Technical University “Kharkiv Polytechnic Institute”, 2, Kyrpychova, 61002 Kharkiv, Ukraine
Ivan Kuric: Department of Automation and Production Systems, Faculty of Mechanical Engineering, University of Zilina, 8215/1, Univerzitna St., 010 26 Zilina, Slovakia
Milan Saga: Department of Applied Mechanics, Faculty of Mechanical Engineering, University of Zilina, 8215/1, Univerzitna St., 010 26 Zilina, Slovakia
Viktoriia Kostyk: Department of Computerized Mechatronic Systems, Tools and Technologies, Faculty of Machine Building, Donbas State Engineering Academy, 72, Akademichna St., 84313 Kramatorsk, Ukraine
Vitalii Ivanov: Department of Manufacturing Engineering, Machines and Tools, Faculty of Technical Systems and Energy Efficient Technologies, Sumy State University, 2, Rymskogo-Korsakova St., 40007 Sumy, Ukraine
Viktor Kovalov: Department of Computerized Mechatronic Systems, Tools and Technologies, Faculty of Machine Building, Donbas State Engineering Academy, 72, Akademichna St., 84313 Kramatorsk, Ukraine
Ivan Pavlenko: Department of Computational Mechanics Named after V. Martsynkovskyi, Faculty of Technical Systems and Energy Efficient Technologies, Sumy State University, 2, Rymskogo-Korsakova St., 40007 Sumy, Ukraine

DOI: https://doi.org/10.3390/app12010469
Journal volume & issue: Vol. 12, no. 1
p. 469

Abstract

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The relevant problem is searching for up-to-date methods to improve tools and machine parts’ performance due to the hardening of surface layers. This article shows that, after the magnetic-pulse treatment of bearing steel Cr15, its surface microhardness was increased by 40–50% compared to baseline. In this case, the depth of the hardened layer was 0.08–0.1 mm. The magnetic-pulse processing of hard alloys reduces the coefficient of microhardness variation from 0.13 to 0.06. A decrease in the coefficient of variation of wear resistance from 0.48 to 0.27 indicates the increased stability of physical and mechanical properties. The nitriding of alloy steels was accelerated 10-fold that of traditional gas upon receipt of the hardened layer depth of 0.3–0.5 mm. As a result, the surface hardness was increased to 12.7 GPa. Boriding in the nano-dispersed powder was accelerated 2–3-fold compared to existing technologies while ensuring surface hardness up to 21–23 GPa with a boride layer thickness of up to 0.073 mm. Experimental data showed that the cutting tool equipped with inserts from WC92Co8 and WC79TiC15 has a resistance relative to the untreated WC92Co8 higher by 183% and WC85TiC6Co9—than 200%. Depending on alloy steel, nitriding allowed us to raise wear resistance by 120–177%, boriding—by 180–340%, and magneto-pulse treatment—by more than 183–200%.

Published in Applied Sciences

ISSN: 2076-3417 (Online)
Publisher: MDPI AG
Country of publisher: Switzerland
LCC subjects: Technology: Engineering (General). Civil engineering (General); Science: Biology (General); Science: Physics; Science: Chemistry
Website: http://www.mdpi.com/journal/applsci

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