SU1409896A1 - Method of determining comparative resistance of corrosion-resistant steels to pitting corrosion - Google Patents

Description

The invention relates to corrosion testing of metals and alloys and can be used in the development and control of corrosion-resistant steels used in environments containing chlorine ions.

The purpose of the invention is to reduce the laboriousness of determining comparative resistance against the pitting root of the discord.

The drawing shows a diagram of the implementation of the method.

The essence of the method is as follows.

In the vessel 1 with a 10% solution of FeClj-eH O at 20 ° C, on the holder x-contacts 2 of any design providing reliable electrical contact, passing through krpak 3 of insulating materialJ install the required number of samples 4, Samples are immersed in the solution 2/3 of their height, the sample in contact with the solution, should be at least 1 cm. With the test solution, the standard reference electrode 5 is electrolytically connected and electrically connected with sample a 4 through a high-resistance voltmeter 6 to measure the potential of the corr sii of each sample,

Since the method is aimed at determining the comparative resistance against pitting corrosion, the samples can be tested both in the initial state and after different processing of the surface of samples from the same material or the effect of the type of surface treatment on various materials can be determined.

The corrosion potential of the test specimens, measuring 5C1T, after they have been kept in the test solution for at least 14-16 minutes. This time, according to the experimental data, is sufficient to reach the potential of the sample at a stationary value. It is established that the location of corrosion-resistant steels in the range of resistance to pitting corrosion, obtained from the results of tests of the prototype and the proposed method, is the same. Therefore, the measured potential, which reached a stationary value in a time not less than 14 min in a 10% solution of FeClj, 0, is taken to characterize pitting formation and by its magnitude

do not judge the comparative resistance of steels against pitting corrosion; the greater the potential of this potential, the higher the resistance of the material to

pitting corrosion.

The application of the method to the evaluation of pitching for materials of large-sized parts is carried out

0 using glass: childer, fixed at one end through a rubber seal on the surface of the part. The same FeClj solution is poured into it and a reference electrode is introduced.

5 The working electrode in this case is the surface of the test product. The determination is made on at least three parts of the part surface, Example. As described in

0 A 10% solution of EHC1HBN (0, a sample of 03x18H11 steel was immersed and a sample of OZxNBMB steel, after simultaneously holding samples in solution for 15 minutes, measured the value of their potentials relative to the chlorine-silver reference electrode, which amounted to; OZhN26 SCHB - O., 5 V, for steel 03x18 H 11 - 0.15 V. From the obtained values it is clear

0 that the potential of the first steel is more positive than the potential of the second steel by 0.35 V, t, e. Nickel-rich OZHN26 MDB steel is more resistant to pitting

d rubber in chlorine-containing media compared with steel 03x18 H11 "

Form u.la inventions

0The method of determining the comparative

resistance of corrosion-resistant steels against pitting corrosion, according to which several samples are held in the electrolyte and determined

5 cells, characterizing the pitting formation, which is judged on the comparative resistance against pitting corrosion of sample materials, characterized in that, in order to reduce the labor intensity of the determination, a 10% solution of FeCl1-bN O is used as an electrolyte, carried out for at least 14 min, and the measurement of potentials is carried out after exposure and select e RI potentials as potentials characterizing pitting formation.

0

five

Claims (1)

Claim A method for determining the comparative resistance of corrosion-resistant steels against pitting corrosion, by which no samples are retained in the electrolyte and the potentials characterizing pitting are determined, the value of which is used to judge the comparative resistance against pitting corrosion of sample materials, characterized in that, in order to reduce the complexity of determination, as electrolyte use a 10% solution of FeCl ₃ * 6H ^ 0, exposure is carried out for at least 14 minutes, and the measurement of potentials is carried out after exposure and select these potentials as potentials characterizing pitting formation.