THE CHROMIUM AND MOLIBDENUM DISTRIBUTION IN THE DIFFUSION LAYER OF STEEL X35CrNi2-3 DURING THERMОDIFFUSION SATURATION

The destruction of parts of machines and mechanisms made of carbon and structural steels, as a rule, begins with surface corrosion, which can be prevented by applying protective coatings, in particular, by chemical-thermal treatment. The results of laboratory studies on the joint thermal diffusion saturation of steel 35Х2Н3 with chromium and nickel at a temperature of 1000°C for 24 hours are presented. A technique for analyzing the resulting coating based on the possibilities of X-ray spectral microanalysis (EDXA) of the diffusion layer on transverse microsections of the obtained samples is presented. The elemental composition of the diffusion layer was monitored using a JEOL JSM-6460 LV universal scanning electron microscope. Additionally, an experiment was carried out, which made it possible to fix the occurrence of an electric current in the system due to the thermal emission of electrons from the metals of the saturating mixture. It is shown that the complex saturation of structural steel with chromium and nickel has a favorable effect on the depth of the diffusion layer. An effective way to increase the depth of diffusion of chromium and nickel is to use an electron gun (nickel mesh). The diffusion depth of nickel increases by 2 times and chromium by 1.3 times. The fact of electron emission and the occurrence of their directed flow (current strength up to 0.15 mA) from the backfill to the saturated part has been experimentally confirmed. It was established that the magnitude of the emerging current depends on the number of emitted electrons and it is higher when the work function of electrons for the metal in the filling is lower.

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THE CHROMIUM AND MANGANESE DISTRIBUTION IN THE DIFFUSION LAYER OF STEEL 35CrNi2-3 DURING THERMОDIFFUSION SATURATION

SHABUROVA,

PASHKEEV

2022

Černaâ metallurgiâ. Bûlletenʹ naučno-tehničeskoj informacii

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Increasing the strength, hardness and wear resistance of the material of machine parts and mechanisms has been an urgent task for many decades. The most promising option of its solution is surface hardening. Among the wide variety of surface hardening methods (heat treatment, deformation methods, etc.), in recent time, much attention has been paid to the chemical-thermal treatment methods, which consist in saturating the metal surface with one or more elements. The article describes the features of thermal diffusion saturation of steel 35CrNi2-3 with chromium and manganese at a temperature of 1000°C. A technique for analyzing the obtained coating is presented, based on the possibilities of X-ray spectral microanalysis of the diffusion layer on transverse microsections of the obtained samples. The elemental composition of the diffusion layer was monitored using a JEOL JSM-6460 LV universal scanning (scanning) electron microscope. The results obtained show that the joint diffusion saturation of the surface of steel 35CrNi2-3 with manganese and chromium leads to the formation of an external diffusion layer on the metal surface, consisting of a solid solution of Cr‒Fe‒Mn substitution with a gradient in composition. The average diffusion coefficients of chromium and manganese in the α-phase of chromium were DCr = 3,5·10‒15 m2/s and DMn = 5,14·10‒14 m2/s, respectively; in the γ-phase of iron ‒ DCr == 1,16·10‒17 m2/s and DMn = 1,43·10‒17 m2/s, respectively. The depth of the diffusion layer of chromium in the metal at joint saturation with manganese was 30 μm, the diffusion layer of manganese was 37 μm. The large depth of penetration of manganese into steel is explained by its lower work function of electrons and the contribution of electromigration of manganese ions to diffusion.

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THE CHROMIUM AND MOLIBDENUM DISTRIBUTION IN THE DIFFUSION LAYER OF STEEL X35CrNi2-3 DURING THERMОDIFFUSION SATURATION

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Acceleration of Solid-Phase Chromizing of Steel by Intrinsic Thermionic Field

Acceleration of Solid-Phase Chromizing of Steel by Intrinsic Thermionic Field

Effect of the Joint Saturation Conditions of Steel With Chromium and Nickel on the Diffusion Layer Depth

THE CHROMIUM AND MANGANESE DISTRIBUTION IN THE DIFFUSION LAYER OF STEEL 35CrNi2-3 DURING THERMОDIFFUSION SATURATION

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