SU1574687A1 - Method of electrochemical processing of steel mandrels - Google Patents

Abstract

The invention relates to the electrochemical machining of metals, preferably mandrels from steel 60C2XFA for cold rolling of pipes. The aim of the invention is to increase the operational durability of the mandrels and the expansion of technological capabilities. Electrochemical treatment is carried out in an electrolyte of the following composition, wt.%: Sulfuric acid 35 - 45

orthophosphoric acid 35 - 45

carboxymethylcellulose 0.1 - 0.2

sulfate copper 0.01 - 0.05

water is the rest, at 50–80 ° C, and first polishing is carried out at a current density of 220 A / dm ^{2 for} 1–2 min, then increasing the current density to 250–300 A / dm ² , oxidizing it for 1–2 min and exposure time without current 5 - 20 s. 1 tab.

Description

one

(21) 4344137 / 23-02

(22) 10/12/87

(46) 06/30/90. Bgsl. K 24 (72) S.I. Makedonov, V.M. Shtanko, A.G. Kostepko, N.G.Vashchenko, V.M. Kozlov, R.V.Ermakova, B.P.Tsutsiev, V .Z.Koff, M.G. Kaplun and A.I. Feldman

(53) 621,357.7 (088.8)

(56) Adhesive Ya.N. and Shtanko V.M. Chemical and electrochemical processing of steel pipes. - M .: Metallurgi, 1982, p. 157.

(54) METHOD OF ELECTROCHEMICAL TREATMENT OF STEEL EDITIONS

(57) The invention relates to the electrochemical machining of metaals, preferably mandrels of 60C2XFA steel for cold-rolling pipes. The purpose of the invention is to increase the operational durability of the mandrels and the expansion of technological capabilities. Electrochemical treatment is carried out in an electrolyte of the following composition, wt.%: Sulfuric acid 35-45; orthophosphoric acid 35-45; carboxymethyl cellulose 0.1-0.2; copper sulfate 0.01-0.05; water is the rest, at 50-80 C. and first polishing is carried out at a current density of 220 A / dm2 for 1-2 minutes, then, increasing the current density to 250-300 A / dm2, it is oxidized for 1-2 minutes and held without current 5-20 s. 2 tab.

with SS

The invention relates to methods for the electrochemical machining of metals, in particular to the polishing of rolling tools (mandrels), mainly from 60C2XFA steel for cold-rolling pipes.

The purpose of the invention is to increase the operational durability of the mandrels and the expansion of technological capabilities.

Mandrels of 60C2XFA steel are treated in one solution by successive polishing, oxidation, and contact deposition of copper at. temperature 50-80 C.

The electrolyte preparation technology is as follows. With stirring, the calculated amount of sulfuric and phosphoric acid is added, copper sulphate and carboxymethylcellulose are added. The variable parameters of the processing modes and the concentration of copper sulfate are shown in Table. one.

Data characterizing the operational durability, the thickness of the oxide film, roughness, are presented in Table. 2

The introduction of copper sulfate in the amount of 0.01-0.05% in the electrolyte causes the effect of accelerating and improving the quality of the oxide coating and improving the lubricating properties of the rolling tool, additionally protecting the tool from wear.

An increase in (50-80 ° C) electrolyte temperature contributes to the oxidation and uniformity of the oxidized layer. The polishing process is carried on.

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1-2 minutes This time is sufficiently long to increase the surface cleanliness by grade 1-2. Further exposure in the electrolyte is impractical due to the lack of a smoothing effect. With a shorter exposure time, no increase in surface finish is achieved.

The process of obtaining the oxide film is also limited in time. With a shutter speed of more than 2 minutes, the thickness of the oxide film does not increase by more than 5-7 microns, and with a shutter speed of up to 1 minute it is 2-3 microns. In addition, an increase in the holding time of the mandrel in the electrolyte for more than 2 minutes leads to a deterioration in the quality of the oxide film (the appearance of looseness).

To speed up the anodic oxidation process and its strong adhesion to the surface, the current density rises to 250-300 A / dm2. When the current density is less than 250 A / dm2, the oxide film becomes loose, and partially falls off during rolling. When the current density is above 300 A / dm2, the contact of the current lead to the mandrel overheats and it melts, and the mandrel threading is also reset to hook it to the rod.

An increase in the electrolyte temperature above 80 ° C leads to the formation of a loose film, and a decrease below 50 ° C leads to a decrease in the thickness of the oxide film, which indicates the optimality of the selected interval.

Changing the copper sulfate concentration in the direction of decreasing or increasing from the selected range does not ensure the normal process of contact deposition of copper, since with an excessive amount of copper in the oxide layer, the latter unacceptably softens and does not withstand high specific pressures during rolling, especially pipes This reduction below the lower limit value reduces the resistance of the mandrels.

Reducing the exposure time of the mandrel when the disconnected current is less than 5 s does not provide sufficient sat 5

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The film surface is covered by copper ions, and an increase of more than 20 s is impractical, since the contact deposition of copper stops.

Upon receipt of the oxide film in two separate stages: first, polishing, and then in the second electrolyte, anodic oxidation, the latter does not withstand rolling loads and after 1-2 hours peels off the tool. The oxide film obtained by the combined process allows the mandrel to work without having lost its operational characteristics for 36-48 hours or more.

In comparison with the known method, the proposed method makes it possible to reduce the cost of machining mandrels by 2-3 times, to increase the operational durability of mandrels by 3-4 times, increasing the yield of suitable for warm and cold pipe rolling by 3-7%.

Claims (1)

Invention Formula The method of electrochemical machining of steel mandrels, including polishing in electrolyte containing sulfuric and orthophosphoric acids, carboxymethylcellulose and water at a current density of 200 A / dm2, characterized in that, in order to increase the operational durability of the mandrels and expand technological capabilities, polishing is carried out 1-2 minutes in the electrolyte, optionally containing copper sulphate in the following ratio, wt.%: Sulfuric acid 35-45 Orthophosphorus acid35-45 Carboxymethylcellulose 0.1-0.2 Sulfuric acid copper 0,01-0,05 WaterEverything after that, in the same solution, the oxidation is carried out at a current density of 250-300 A / dm2 for 1-2 minutes and contact deposition of copper for 5-20 seconds, all operations being carried out at 50-80 ° C. Table 1 Indicator Example )  L.TT 3 J 4 .Т J at Г8 П io Т Г12 Т Thickness oxide. films, µm 2-4 5-6 5-6 5-7 5-6 5-6 5-6 5-7 5-7 5-7 5-7 5-6 5-7 Roughness, i µm 0.16-0.14 0.16-0.10 0.16-0.10 0.16-0.08 0.10-0.16 0.24-0.22 0.16-0.10 0.16-0.08 0.16-0.08 0.20-0.18 0.16-0.08 0.16-0.10 0.16-0.16 Processing time 2-4 mandrels, min Operational durability mandrels. to nali- j .fcv Mrs. QS (° o meters rolled tubes from riveted workpiece 320 920 930 420 910 380 940 930 830 860 830 940 810 from heat-treated blank 890 2300 2320 1320 2320 640 2350 2340 2240 2250 2350 2350 820 sv Example