Effect of electrolyte-plasma surface hardening on structure wheel steel 2
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KSU Publ.
Abstract
This paper examines the influence of electrolyte-plasma surface hardening on the structure and microhardness
of wheel steel mark 2. In the work electrolyte-plasma surface hardening was carried out in an electrolyte
made from an aqueous solution 10 % carbamide (NH2)2CO 20 % sodium carbonate Na2CO3. The processing
time was 2 seconds, Tmax = 850–900 ºC; U= 320V; I=40A. According to the results of the scanning transmission
electron microscopy, the electrolyte-plasma surface hardening caused a change in the morphological
constituents of mark 2 steel. In the initial state, the matrix of steel is a α-phase, the morphological components
of which are fragmented ferrite, unfragmented ferrite and pearlite. After electrolytic-plasma surface
hardening, a batch, high-temperature plate and low-temperature plate martensit is formed on the surface of
the sample. Investigations have been carried out on microhardness determination on cross-section of wheel
steel samples after quenching in aqueous solution of electrolyte. It is found that after electrolytic-plasma surface
hardening, the microhardening values of this hardened surface layer increased ~ 3 times compared to the
steel matrix, and the thickness of the hardened layer is 1000–1500 microns.
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Rakhadilov B.K. Effect of electrolyte-plasma surface hardening on structure wheel steel 2/B.K. Rakhadilov [et al]//Қарағанды университетінің хабаршысы. ФИЗИКА сериясы = Вестник Карагандинского университета. Серия ФИЗИКА.= Bulletin of the Karaganda university. PHYSICS Series. -2020. №2. Р.68-74.