Investigation of Changes in the Structural-Phase State and the Efficiency of Hardening of 30CrMnSiA Steel by the Method of Electrolytic Plasma Thermocyclic Surface Treatment

Baizhan D. Rakhadilov B. Zhurerova L. Tyurin Y. Sagdoldina Z. Adilkanova M. Kozhanova R.
November 2022 MDPI

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2022 #12 Issue 11

Electrolytic plasma thermocyclic surface hardening is an attractive solution for both chemical and heat treatment used to improve the properties of the steel surface by structural and phase transformation. Structural and phase transformations occurring during the process of electrolytic plasma thermocyclic hardening are performed repeatedly at varying heating–cooling temperatures, which radically improve the quality of the part and give them properties unattainable by means of one-time processing. The impact of electrolytic plasma thermocyclic hardening modes on the structure and mechanical and tribological properties of 30CrMnSiA steel is investigated. The structural and phase components were examined using optical and scanning electron microscopy, as well as X-ray phase analysis. It is established that the structure of the cross-section is characterized by the following zonality: zone 1—a near-surface hardened zone, which is composed of hardened martensite; zone 2—thermal influence; and zone 3—a matrix consisting of pearlite and ferrite. The microhardness and wear resistance of the hardened surface were evaluated by nanoindentation and “ball on disk” methods, respectively. Nanoindentation analysis demonstrated that the indentation hardening process provides a maximum increase in hardness by three times and an increase in stiffness with a decrease in the elastic modulus by 38% compared to the original steel. The results of tribological studies show that electrolytic plasma thermocyclic hardening increases the resistance of steel to friction by increasing the surface hardness and reduces the area of actual contact during friction. It is established that the microhardness of the cross-section decreases proportionally from the surface to the depth of the layer, which is associated with a decrease in the volume content of martensite.

electrolytic plasma thermocyclic hardening , martensite , microhardness , phase , structural-phase state

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Research Center «Surface Engineering and Tribology», Sarsen Amanzholov East Kazakhstan University, Ust-Kamenogorsk, 070000, Kazakhstan
Research Center «Material Surface Modification», Shakarim University, Semey, 071412, Kazakhstan
PlasmaScience LLP, Ust-Kamenogorsk, 070010, Kazakhstan
E.O. Paton Electric Welding Institute, NASU, Kyiv, 03650, Ukraine
The Faculty of Earth and Environmental Sciences, Daulet Serikbayev East Kazakhstan Technical University, Ust-Kamenogorsk, 070000, Kazakhstan

Research Center «Surface Engineering and Tribology»
Research Center «Material Surface Modification»
PlasmaScience LLP
E.O. Paton Electric Welding Institute
The Faculty of Earth and Environmental Sciences

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