SU1289567A1 - Method of producing copper rod - Google Patents

Abstract

The invention relates to non-ferrous metallurgy and can be used in continuous hot rolling of copper and its alloys. The aim of the invention is to improve the quality of copper rod, simplify the process and reduce its cost. Copper rod is obtained by rolling, at the same time treating it in an aqueous solution of organic matter, which is used as a 10-30% aqueous solution of technical chlorine-free polyglycidol. The solution of this composition under the conditions of hot rolling practically does not evaporate, retains the reducing properties in a wide range of temperatures, and the process of reduction of copper oxides at a temperature of 800 ° C and above takes place completely and stably, the solution is simultaneously a lubricant during processing, pressure . 2 tab. F, (L GS 00; & el Oi

Description

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The invention relates to non-ferrous metallurgy and can be used in the continuous hot rolling of copper and its alloys.

The purpose of the invention is to improve the quality of copper rod, simplify the process and reduce its cost.

The method involves obtaining a copper rod with a non-oxidized surface by hot rolling the billet with its simultaneous treatment in a 10–30% aqueous solution of non-chlorine technical polyglycidol.

Technical non-chlorine polyglycidol is a vat residue from the production of glycerol or glycidol, comprising, in wt%;

Glycerol 30-70

GlicidolUp to 5.0

PolyglycidolErest

up to 100

Physically, it is a dark brown liquid with a boiling point higher than 300 ° C, soluble in water in any ratios.

Partial recovery- Full repair

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Partial Full restoration without peeling

15

The same Full restoration, uniform, without peeling

20 25

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Partial Full Restoration

perception

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(famous)

Restores the surface layer of copper with peeling on the oxide layer.

It has been found that, under hot rolling conditions, solutions of the bottoms residue practically do not evaporate, retaining reducing properties in a wide range of temperatures, and the process of reduction of copper oxides at 800 ° C and above proceeds fully and stably.

The copper reduction solution is prepared by introducing the bottoms in water at room temperature. The proposed reducing agent is tested in the form of aqueous solutions of 5-30% concentration in laboratory and industrial conditions in the temperature range of 600-900 ° C.

Laboratory tests were conducted on samples of copper plates of sizes 30X60X0.5 mm. Samples are subjected to air oxidation in a muffle furnace at 600, 800, 900 ° C for 30 s. An oxide film of black color with a thickness of 30-100 microns is formed on the metal. The dead samples will be placed in the test solutions. The degree of reduction is evaluated by the composition of the oxidized films on the surface visually (by color) and by means of a microscope.

The results are shown in Table. one.

Table 1

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As can be seen from Table 1, the limits of the concentration of the aqueous solution and the sample temperature were determined by the fact that when the temperature of the copper sample is 800 ° C and higher, the oxides are completely reduced when the content of the bottom residue is 25%, at 900 ° C - at the content of 10 ° / o , and with a higher content, it does not make sense to conduct the process, since the oxide film is already reduced.

The solutions with the same composition were tested for their workability in order to determine the stability and service life of the solutions by immersing the plates oxidized at a temperature of 800 and in a certain volume. The measure of evaluation is the number of plates recovered from oxides η 100 ml of the test solution until it loses its reducing ability. The results are shown in Table. 2

Table 2

Testing of the proposed method on samples of copper rod at 820 and 900 ° C is given. Experience has shown that the copper reduction process takes place completely at 800 ° C and polyglycidol content in the solution of 25%, as well as at a temperature of 900 ° C and 1% polyglycidol.

It was established that a further increase in polyglycidol in an aqueous solution above 30% does not give an additional positive effect.

According to the proposed method, the copper cast billet was clarified under production conditions during four shifts.

The use of the proposed composition makes it possible to eliminate heat exchangers for cooling the coolant and to keep the temperature of the reducing fluid at about 100 ° C, which ensures wire rod with a relative elongation of up to 42% instead of 30% by a known method.

It has been established by experiment that a 10-30% solution of the bottom residue is at the same time a lubricant for plastic deformation of the workpiece, therefore the use of special coolant is not required.

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Claims (1)

Invention Formula A method of producing copper wire rod, including hot rolling the billet while simultaneously processing it in an aqueous solution of organic matter, characterized in that, in order to improve the quality of the wire rod, simplify the process and reduce its cost, 10-30% aqueous solution of polyglycidol technical chlorine free.