RU2010886C1 - Method of diffusion chrome-plating of article made of carbon unalloyed steel - Google Patents

Abstract

FIELD: metallurgy. SUBSTANCE: articles made of carbon unalloyed steel are subjected for gas nitriding at 510-530 C for 48-72 h following by chrome-plating in powdery mixture. EFFECT: improved method of chrome-plating. 1 tbl

Description

 The invention relates to metallurgy, in particular chemical-thermal treatment, and can be applied to the processing of parts operating in aggressive environments.

 In modern mechanical engineering, in the manufacture of parts operating in aggressive environments, diffusion chromium plating of their surface is used (1).

 Known methods of diffusion chromium plating have the disadvantage that they do not provide a sufficiently high fatigue strength of the processed steels.

 A known method of diffusion chromium plating in a powder mixture containing, by weight. %: Ferrochrome 50 - 60 Cobalt dichloride 1 - 1.5 Aluminum oxide The rest.

The process is carried out in containers with a fusible bolt at 1050 ^C for 6-16 hours.

The endurance limit of steel 45 is 31-34 ˙10 ⁷ n / m ² .

 The purpose of the invention is to increase the endurance limit of diffusion-chromium unalloyed steels.

The goal is achieved in that the workpieces are subjected to nitridation in a medium dissociated ammonia at 510-530 ^{° C} for 48-72 h, followed by saturation of the chromium in the powder mixture (e.g., at 1050 ^{° C} for 6-16 hours).

 When analyzing well-known technical solutions, no solutions were found having features similar to the totality of the distinguishing features of the present invention.

 Based on the analysis, we can conclude that the claimed technical solution has significant differences.

 The presence of a set of essential features provides an increase in the endurance limit of diffusion-chrome-plated unalloyed carbon steels.

The table shows the endurance limit (σ _-1 ) of steel 45 subjected to ordinary diffusion chromium plating and chromium plating with preliminary nitrogen saturation (I.A. + XP). According to the data of this table, the proposed processing method allows to increase the endurance limit of diffusion-chromium steels by 20-30%. The observed simplification effect can be attributed to the fact that, along with the high compressive stresses that diffusion chromium plating provides on the surface of the steel, a solid solution of the interstitial type appears in the sublayer, which prevents the onset of fatigue damage that occurs, specifically, in the sublayer.

 A metallographic analysis showed that, compared to conventional chromium plating, preliminary nitriding favors a finer-grained sublayer zone, which may also explain the hardening that occurs.

 Application of the method to alloyed steels (especially alloyed with nitride-forming elements) does not have a positive effect, which can be attributed to the fact that the nitrides formed in the process of preliminary nitriding are significantly enlarged at a high temperature of chromium plating and begin to play the role of non-metallic inclusions. (56) Copyright certificate of the USSR N 905320, cl. C 23 C 10/38, 1979.

Claims (1)

METHOD FOR DIFFUSION CHROMING OF PRODUCTS FROM CARBON-FREE ALLOYED STEELS, including saturation in a powder mixture, characterized in that, in order to increase the endurance limit of the processed products, they are preliminarily subjected to gas nitriding at 510 - 530 ^o С for 48 - 72 hours.

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