KR101149152B1 - Neutral electrowinning device and method for extracting of nonmetallic inclusion using thereof - Google Patents

Abstract

The present invention relates to a neutral electrolytic extracting apparatus and a method for extracting a non-metallic inclusion using the same, wherein the sample is precipitated in a neutral electrolyte in an electrolytic cell, and then an electrical power is applied to the negative electrode plate and the specimen to extract the non-metallic inclusion in the neutral electrolyte. The weight is detected by the specimen weight measurement unit, the measured weight is compared with the reference value, and the operation of the power supply unit is controlled based on the comparison result to prevent the generation of by-products such as sludge when extracting the non-metallic inclusions.

Description

Neutral electrowinning device and method for extracting of nonmetallic inclusion using girls}

The present invention relates to a neutral electrolytic extraction apparatus and a method for extracting non-metallic inclusions using the same, and more particularly, to prevent by-products from being mixed when extracting non-metallic inclusions in steel.

In general, there are nonmetallic inclusions caused by deoxidizer or refractory and slag added during smelting.

The present invention is a neutral electrolytic extraction device and non-metal inclusions using the same to prevent the occurrence of by-products such as sludge when the extraction of the non-metal inclusions in the steel to extract the non-metal inclusions purely to accurately analyze the extraction of the non-metallic inclusions The purpose is to provide an extraction method.

The object of the present invention is an electrolytic cell in which a neutral electrolytic solution is stored and steel specimens are precipitated to extract non-metallic inclusions;

A negative electrode plate connected to the specimen;

A power supply unit connected to the specimen to supply positive power and connected to the negative plate to supply negative power;

A specimen weight measurement unit for sensing a weight of the specimen;

It is solved by providing a neutral electrolytic extraction device including a control unit connected to the test piece weight measurement unit and the power supply unit to compare the weight of the test specimen with a reference value and control the operation of the power supply unit based on the comparison result.

The test piece weight measuring unit is located on top of the electrolytic cell, the test piece is suspended and connected, the electronic weighing meter for continuously measuring the weight of the suspended specimen, and transmits the measured signal to the control unit;

It characterized in that it comprises a support for supporting the electronic weight scale on the upper side of the electrolytic cell.

It characterized in that it further comprises a filter for extracting the non-metallic inclusions by filtering the neutral electrolytic solution in which the specimen is molten.

A cover member covering the open upper part of the electrolytic cell, and a specimen guide member having a specimen guide hole through which the specimen is penetrated through the cover member and protrudes upward and downward of the cover member and through which the specimen passes through the cover member. It is characterized by including.

In addition, the object of the present invention is the step of melting the specimen by applying a cathode power generated from the power supply to the specimen precipitated in the neutral electrolytic solution of the electrolytic cell, and applying a cathode power to the cathode plate connected to the specimen, the melting of the specimen Measuring the weight of the specimen, comparing the measured weight of the specimen with a reference value, controlling the operation of the power supply unit based on the comparison result, and stopping the operation of the power supply unit; Is solved by providing a method for extracting a non-metallic inclusion comprising filtering the molten neutral electrolytic solution to extract the non-metallic inclusion.

The controlling of the operation of the power supply unit may include a-1) comparing a reference value corresponding to the weight of the specimen from which the amount of melting of the specimen at the point where the sludge is formed with the weight of the specimen being melted, a-2) When the comparison result is that the weight of the specimen being melted is less than the reference value, the operation of the power supply unit is stopped, the application of the electric power is cut off, and if more than the reference value, characterized in that it comprises a step of maintaining the electric power applied to the power supply.

The present invention has the effect of preventing the mixing of by-products such as sludge when the non-metallic inclusions in the steel specimens by neutral electrolysis to extract the pure non-metallic inclusions.

The present invention has the effect of increasing the analysis accuracy and reliability of non-metallic inclusions to ensure reliable data for improving steel quality, and to effectively improve steel quality.

1 is a schematic view showing a neutral electrolytic extraction device of the present invention
Figure 2 is a photograph showing the sludge produced when extracting the non-metallic inclusions in steel specimens by neutral electrolysis.
Figure 3 is a graph showing the XRD analysis of the sludge produced when the non-metallic inclusions are extracted from the steel specimens by neutral electrolysis
Figure 4 is a flow chart showing a non-metallic inclusion extraction method of the present invention

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

Hereinafter, as shown in FIG. 1, the neutral electrolytic extraction apparatus of the present invention includes an electrolytic cell 10 in which a neutral electrolytic solution is stored.

Neutral electrolyte is stored in the electrolytic cell 10, and the neutral electrolyte is an example of using a 10% AA solution (Methanol (89%) + Acetylaceton (10%) + Tetra Methylammonium Chloride (1%)).

And steel specimen (1) for extracting the non-metallic inclusions is precipitated in the neutral electrolytic solution of the electrolytic cell (10).

The negative electrode plate 20 is connected to the specimen 1, and the negative electrode plate 20 is connected to the power supply unit 30 so that negative power is applied.

In addition, the power supply unit 30 is connected to the specimen 1 to apply positive power.

The power supply unit 30 is connected to the specimen 1 to supply positive power, and is connected to the negative plate 20 to supply negative power, thereby applying voltage and current to the specimen 1 so that the specimen 1 To melt.

The present invention includes a specimen weight measurement unit 40 for sensing the weight of the specimen (1).

The test piece weight measuring unit 40 is positioned above the electrolyzer 10 and the test piece 1 is suspended and connected, continuously measuring the weight of the suspended test piece 1, and measuring the measured signal in the control unit 50. An electronic weighing scale 41 for transmitting to the electronic weight scale;

It includes a support 42 for supporting the electronic weight meter 41 on the upper side of the electrolytic cell (10).

The electronic weight meter 41 is fixed in a state of being supported on the upper part of the electrolytic cell 10, and the test piece 1 is continuously suspended to measure the weight of the test piece 1, and the measured signal is controlled by the controller 50. To pass.

The present invention is mounted to protrude upward and downward of the cover member 60 and the cover member 60 covering the open upper portion of the electrolytic cell 10 and the cover member 60 in the up and down directions. It is preferred that the specimen guide member further includes a specimen guide hole 61a through which the specimen 1 penetrates.

The specimen 1 penetrates the specimen guide member 61 so that a portion of the end portion is deposited in the neutral electrolytic cell 10 in the settling tank.

The specimen 1 passes through the specimen guide member 61 and is maintained in a vertically arranged state without being moved by an external factor.

The specimen guide member 61 protects the specimen 1 from flowing by an external factor so that the electronic weigh scale 41 can continuously and accurately measure the weight of the specimen 1.

The controller 50 is connected to the specimen weight measuring unit 40 and the power supply unit 30 and compares the weight of the specimen 1 measured by the specimen weight measuring unit 40 with a reference value, based on the comparison result. To control the operation of the power supply unit 30.

The controller 50 detects that the weight of the specimen 1 decreases from the initial weight to a predetermined range or more, that is, if the weight of the specimen 1 is equal to or less than a reference value, the controller 50 stops the operation of the power supply unit 30 and the specimen. (1) and to cut off the power applied to the negative electrode plate (20).

In addition, the present invention further includes a filter unit 70 for extracting a non-metallic inclusion by filtering the neutral electrolytic solution in which the specimen 1 is melted.

The non-metal inclusions are extracted by the filter unit 70 and then analyzed by the analysis unit 80.

That is, in the present invention, when the current and voltage are applied to the specimen 1 and the cathode plate 20, the specimen 1 is melted, and the neutral electrolyte solution in which the specimen 1 is melted is the filter unit ( 70) to extract non-metallic inclusions.

However, when the specimen 1 is excessively melted, the by-products of the Fe-C-0-H phase shown in FIG. 2, that is, sludge is formed by reacting the dissolved Fe with the [C] component in the steel and the neutral electrolyte.

When these by-products are produced, the extracted non-metallic inclusions and by-products are mixed, making it impossible to extract the non-metallic inclusions.

Since this by-product is represented as sludge, a graph showing the XRD analysis of the sludge is shown in FIG.

Therefore, in order to avoid the generation of sludge, it is necessary to check how much is currently extracted during extraction.

Extraction time Voltage (v) Current (mA) Dissolution Sludge 4:12 3.5 200 1.0902 ○ 5:00 5.3 200 1.0761 ○ 4:35 5.3 200 1.0254 × 5:00 2.7 150 0.8091 × 4:40 3.8 150 0.7956 × 5:00 2.0 100 0.5422 ×

Table 1 is a table showing the sludge generation results according to the dissolution conditions and the amount of dissolution when the specimen (1) in 300ml neutral electrolytic solution.

As shown in Table 1, when dissolving the specimen (1) in a 300ml neutral electrolytic solution, it can be confirmed that sludge occurs when dissolved more than 1g.

That is, the controller 50 has a weight of the specimen 1 measured by the specimen weight measuring unit 40 based on the time when the specimen 1 is dissolved in a 300 ml neutral electrolytic solution. If you go less than 1g to cut off the electrical power to prevent the occurrence of sludge.

Referring to the non-metal inclusion extraction method in more detail with the present invention.

As shown in FIG. 2, in the non-metal extraction method of the present invention, a cathode power is applied from a power supply unit 30 to a specimen 1 precipitated in a neutral electrolytic solution of an electrolytic cell 10, and a cathode plate connected to the specimen 1. Melting the specimen 1 by applying a cathode power to the (20) (S10).

In addition, the non-metal extraction method of the present invention is the step of continuously measuring the weight of the specimen (1) when the specimen (1) is melted in the step (S20), comparing the weight of the measured specimen (1) with a reference value And controlling the operation of the power supply unit 30 based on the comparison result (S30), and when the operation of the power supply unit 30 is stopped, a neutral part of the specimen 1 melted in the electrolytic cell 10. Filtering the electrolytic solution to extract the non-metallic inclusions (S40), and analyzing the extracted non-metallic inclusions (50).

In step S30 of controlling the operation of the power supply unit 30, the weight of the specimen 1 being melted is a reference value corresponding to the weight of the specimen 1 from which the amount of melting of the specimen 1 at the point where the sludge is formed is removed. Comparing with,

As a result of the comparison, when the weight of the specimen 1 being melted is equal to or less than the reference value, the operation of the power supply unit 30 is stopped, and the application of the electric power is interrupted. It includes the process of making.

As described above, the method for extracting nonmetallic inclusions of the present invention can extract pure nonmetallic inclusions by melting the specimen 1 only within a range in which sludge is not generated as described above.

Therefore, by increasing the accuracy and reliability of the analysis of non-metallic inclusions to ensure reliable data for improving the steel quality, it is possible to effectively improve the steel quality.

The present invention is not limited to the above-described embodiments, and various changes can be made without departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

1: Psalm 10: Electrolyzer
20: negative electrode plate 30: power supply
40: specimen weight measuring unit 41: electronic weighing meter
42: support 50: control unit

Claims (6)

An electrolytic cell in which the neutral electrolytic solution is stored and the steel specimen for extracting the non-metallic inclusions is precipitated;
A negative electrode plate connected to the specimen;
A power supply unit connected to the specimen to supply positive power and connected to the negative plate to supply negative power;
A specimen weight measurement unit for sensing a weight of the specimen;
And a control unit connected to the test piece weight measuring unit and the power supply unit to compare the weight of the test sample with a reference value and to control the operation of the power supply unit based on the comparison result. The method according to claim 1,
The test piece weight measuring unit is located on top of the electrolytic cell, the test piece is suspended and connected, the electronic weighing meter for continuously measuring the weight of the suspended specimen, and transmits the measured signal to the control unit;
And a support for supporting the electronic weight scale on the upper side of the electrolytic cell. The method according to claim 1,
Neutral electrolytic extraction device characterized in that it further comprises a filter for extracting the non-metallic inclusions by filtering the neutral electrolytic solution in which the specimen is molten. The method according to claim 1,
A cover member covering the open upper part of the electrolytic cell, and a specimen guide member having a specimen guide hole through which the specimen is penetrated through the cover member and protrudes upward and downward of the cover member and through which the specimen passes through the cover member. Neutral electrolytic extraction device comprising a. Applying positive power from the power supply unit to the specimen precipitated in the neutral electrolytic solution of the electrolytic cell, and applying the negative power to the negative electrode plate connected to the specimen to melt the specimen;
Measuring the weight of the specimen as it melts;
Comparing the measured weight of the specimen with a reference value and controlling the operation of the power supply unit based on the comparison result;
When the operation of the power supply unit is stopped, non-metallic inclusion extraction method comprising the step of extracting a non-metallic inclusion by filtering a neutral electrolytic solution in which a portion of the specimen is molten in the electrolytic cell. The method according to claim 5,
Controlling the operation of the power supply unit,
a-1) the process of comparing the reference value corresponding to the weight of the specimen from which the amount of melting of the specimen at the point where the sludge is formed with the weight of the specimen being melted,
a-2) when the weight of the specimen being melted is less than the reference value as a result of the comparison, the operation of the power supply unit is stopped, the application of the electric power is cut off, and if the reference value is higher than the reference value includes the step of maintaining the electric power supply Non-metal inclusion extraction method characterized in that.

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