SU1206027A1 - Electrolyte for dimensional electrochemical working - Google Patents

Description

The invention relates to electrophysical and electrochemical methods for the treatment of metals, namely, electrolytes for dimensional electrochemical machining of articles for various metals and alloys.

The aim of the invention is to increase accuracy, increase processing productivity and improve working conditions.

To reduce the hydraulic resistance in the interelectrode space, leading to the best hydrotransport electrolysis products and well-being of the bulk gas content, which together leads to an improvement in technological performance, a micelle-forming surfactant is additionally introduced into the electrolyte of a known composition, for example an aqueous solution of an alkali metal salt.

To confirm the advantages of the proposed electrolyte composition, several compositions have been tested in relation to the electrochemical treatment of a number of metallic materials. Example, Prepare Electrolyte

a solution in 500 ml of tap water, 100 g of sodium chloride and 2 g of dyalan — OTS. Then the solution volume is made up to 1 l by adding water. In the electrolyte thus prepared, pumped through an electrolytic cell with a plane-parallel channel, electrochemical processing of electrodes 70x x 15 mm made of VTB alloy for 20s at an average current density of 15 A / cm with an electrolyte pressure at the entrance to the interelectrode channel of 2.2 atm with an interelectrode distance of 0.3 mm. The results of measurements of the parameters of the parts treated in this electrolyte show that the accuracy of the form decreases by 20% and the performance of the ECHO increases compared to the results of the ECHO of the same samples in an electrolyte that does not contain Ditalan-OTS. 15%,

Example 2: Preparing an electrolyte, a solution in 500 ml of tap water, 100 g of sodium nitrate

in 3 g metapone. Then the volume of solution

VNIIPI Order 8605/12. Circulation

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Branch PPP Patent, Uzhgorod, Proektna St., 4

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adjusted to 1.l. In the electrolyte prepared in this way, pumped through a plane-parallel electrolytic cell under pressure at an inlet of 2.2 atm and an interelectrode distance of 0.3 mm, electrochemical processing of electrodes of size 70x15 mm manufactured from EI-437B alloy at a current density of 20 A / cm for 20 sec. Measurement of the results of 3X0 such samples shows that the error in the shape decreases by 30%, and the productivity increases by 32% compared to the results of the ECHO of the same samples in an electrolyte that does not contain a metapone. Noise reduction observed when working on equipment by 10-15%.

PRI me R 3. Prepare an electrolyte solution in 500 ml of tap water (I00 g sodium carbonate and 2 g ditalan OTS). Then the volume of the solution is made up to 1 l with the addition of water. In the electrolyte thus prepared, pumped through a plane-parallel electrolytic cell under pressure at an inlet of 2.2 atm and an inter-electrode distance of 0.3 mm, electrochemical processing of samples made of VK-3 hard alloy of size 7Ox 15 mm under voltage 14 In, the average current density of 20 A / cm for 20 s. The results of measurements of the parameters of electrochemically treated samples in this electrolyte show that the shape error decreases by 25%, and the performance of the ECHO increases by 17% compared with the results of the ECHO of the same samples in the electrolyte not containing Ditalan-OTS. noise when working on equipment by 10-15%.

As can be seen from the above examples, when using electrolytes with the addition of micelle-forming surfactants for ECHO, in all cases an increase in the performance of the ECHO process and an increase in processing accuracy due to improved hydrotransport of products and a decrease in volumetric gas content in the interelectrode space are observed. In addition, by reducing the hydrodynamic lens, due to the stabilization of the electrolyte flow, the working conditions are improved.

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Claims (3)

1. ELECTROLYTE FOR DIMENSIONAL ELECTROCHEMICAL TREATMENT of metals, mainly structural steels and alloys based on an aqueous solution of an alkali metal salt, characterized in that, in order to increase accuracy, increase processing productivity and improve working conditions, it additionally contains a micelle-forming surfactant in an amount of 0.08-0.25 wt.%. 2. The electrolyte according to claim 1, wherein the ditalan OTS is used as a micelle-forming surfactant. 3. The electrolyte according to claim 1, characterized in that as the 'i O micelle-forming surface-ac ·; The active substance used is metaupon, SU „„ 1206027 * 1206027