Open AccessINFLUENCE OF VACUUM ACTIVATED DIFFUSION CHROMING ON MECHANICAL PROPERTIES OF THE SURFACE OF STEEL 25X1MF
Author(s) -
S. G. Rudenkyi,
V. I. Zmij,
N.F. Kartzev,
А. А. Корнеев,
A.V. Kunchenko,
V. V. Kunchenko,
Yu. V. Kunchenko,
В.Г. Маринін,
В.И. Коваленко,
M.O. Bortnytska,
T. P. Ryzhova,
I.A. Lashenko
Publication year - 2020
Language(s) - English
DOI - 10.46813/2020-126-132
Subject(s) - materials science , chromium , metallurgy , abrasive , chrome plating , diffusion , surface layer , plating (geology) , layer (electronics) , chloride , composite material , electroplating , physics , geophysics , thermodynamics , geology
In the work, the surface of samples made of 25X1MF steel was saturated with chromium. For this, the method of vacuum activated diffusion chromium plating was used. In this process, sodium chloride was used as an activator. It was found that vacuum activated diffusion chromium plating of samples made of 25Kh1MF steel leads to the formation of a surface layer containing from 87 to 97 wt.% of this element. It was found that an increase in the temperature of the process and its duration leads to an increase in the chromium content on the surface of the samples. The tests showed that in the case of cavitations-erosion effects on the surface of chrome-plated samples of steel 25X1MF they have higher resistance. With abrasive wear, the resistance of the chrome-plated steel surface is 1.8 to 3 times higher compared to untreated material.