KR102101126B1 - corrosion evaluation test device - Google Patents

Abstract

The present invention relates to performance evaluation of a coating film, a film etc. attached to the inside of a large tube. The present invention discloses a corrosion evaluation testing apparatus comprising: a container wherein an upper part and a lower part thereof are opened and which is filled with an electrolyte; a cover disposed at a lower part of the container, wherein a reference electrode and a counter electrode which are immersed in a corrosion solution are fixed; a coupling member coupled to the container; a sealing member having a hollow disposed at the center thereof, disposed at a lower part of the container, and preventing the corrosion solution from flowing out by coming in contact with a specimen to be evaluated; a pair of connecting members of which one end is coupled to the coupling member and the other end is extended to the outside of the container, respectively; and a pair of electromagnets coupled to lower parts of the pair of connecting members, and fixed to the specimen when current is applied.

Description

Corrosion evaluation test device

The present invention relates to a corrosion evaluation test apparatus.

Electrochemical Impedence Spetroscopy (EIS), an electrochemical experiment, is used to evaluate the performance of corrosive paper in pipes such as water pipes. The advantage is the non-destructive method, and it is possible to make an energetic evaluation of the coating performance. The scope of application is used to measure the resistance of the coating film / metal substrate interface, to determine whether a coating film is defective.

 Corrosion cell kits used for this can generally be used only where the cross section is flat, so there is a problem that evaluation cannot be applied to large pipes of 1000 mm or more.

The present invention relates to the performance evaluation of a coating film, a film, etc. attached to the inside of a large pipe, and more specifically, it is attached to the inside of a large steel pipe to electrochemically perform a coating film, a curved tube or an inclined tube to perform performance performance evaluation. It is an object of the present invention to provide a corrosion evaluation test apparatus capable of experimentation.

On the other hand, the technical problems to be achieved in the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned are clearly understood by those skilled in the art from the following description. Will be understandable.

Corrosion evaluation test apparatus according to an embodiment of the present invention, the top and bottom are open, the container is filled with corrosion solution; A cover disposed on the lower portion of the container and fixed with a reference electrode and a counter electrode immersed in an electrolyte solution; A coupling member coupled to the container; A sealing member having a hollow disposed at the center, disposed at a lower portion of the container, and contacting a specimen to be evaluated to prevent the corrosion solution from flowing out; A pair of connecting members, one end of which is coupled to the coupling member, the other end of which extends to the outside of the container, respectively; And a pair of electromagnets coupled to the lower portions of each of the pair of connecting members and fixed to the specimen when current is applied; It may include.

In addition, each of the pair of electromagnets may include a curved portion disposed on the lower surface.

In addition, each of the pair of electromagnets may further include a flat portion disposed around the curved portion on the lower surface.

Further, the specimen is plate-shaped, and when a current is applied to the pair of electromagnets, the flat portion may contact the specimen.

In addition, the specimen has a cylindrical shape or a spherical shape, and when a current is applied to the pair of electromagnets, the curved portion may contact the outer peripheral surface of the specimen.

In addition, the switch is disposed on each of the pair of electromagnets, and controls current application; It may further include.

In addition, the sealing member may include an elastic corrugated pipe.

According to an embodiment of the present invention, it relates to the performance evaluation of a coating film, a film, etc., attached to the inside of a large pipe, and more specifically, it is attached to the inside of a large steel pipe, so that electricity is applied in a pipe with a bend to perform performance evaluation of the coating film, performance Chemical experiments are possible.

On the other hand, the effects obtainable in the present invention are not limited to the above-mentioned effects, and other effects not mentioned will be clearly understood by those skilled in the art from the following description. Will be able to.

1 is a perspective view showing a corrosion evaluation test apparatus according to an embodiment of the present invention,
2 is a front view showing a corrosion evaluation test apparatus according to an embodiment of the present invention,
3 is a side view of an electromagnet in a corrosion evaluation test apparatus according to an embodiment of the present invention,
4 and 5 is an exemplary view showing a state in which the electromagnet is fixed to the specimen in the corrosion evaluation test apparatus according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in more detail with reference to the accompanying drawings. The embodiments of the present invention can be modified in various forms, and the scope of the present invention should not be interpreted as being limited to the following embodiments. This embodiment is provided to more fully describe the present invention to those skilled in the art. Therefore, the shape of the elements in the drawings has been exaggerated to emphasize a clearer explanation.

The configuration of the invention for clarifying the solution to the problem to be solved by the present invention will be described in detail with reference to the accompanying drawings based on preferred embodiments of the present invention, but the same is used in assigning reference numbers to components of the drawings. For the components, even if they are on different drawings, the same reference numbers are assigned, and it is revealed in advance that components of other drawings may be cited when necessary for the description of the drawings.

1 is a perspective view showing a corrosion evaluation test apparatus according to an embodiment of the present invention, Figure 2 is a front view showing a corrosion evaluation test apparatus according to an embodiment of the present invention, Figure 3 is an embodiment of the present invention Corrosion evaluation test apparatus according to the electromagnet is a side view, Figures 4 and 5 is an exemplary view showing a state in which the electromagnet is fixed to the specimen in the corrosion test apparatus according to an embodiment of the present invention.

First, referring to FIGS. 1 and 2, the corrosion evaluation test apparatus according to an embodiment of the present invention includes a container 110, a cover 120, a coupling member 130, a sealing member 140, and a connecting member 150 ), An electromagnet 160 and a switch 170.

The container 110 has an open top and bottom and may be made of cylindrical glass or acrylic material.

The electrolyte solution 2 may be accommodated in the container 110, and the reference electrode 10 and the counter electrode 20 may be inserted and positioned.

The cover 120 may seal the upper portion of the container 110, and may include a through hole for inserting and fixing the reference electrode 10 and the counter electrode 20.

The coupling member 130 may be disposed and fixed on the outer circumferential surface of the container 110.

The sealing member 140 may be disposed on the upper portion of the container 110, and close to the specimen to be evaluated 1 to seal the lower portion of the container 110.

Here, the sealing member 140 has a hollow (not shown) at the center, so that the electrolyte 2 of the container 110 can contact the specimen 1 through the hollow.

Here, the sealing member 140 may be formed of an elastic corrugated pipe, so that the contact region can be sealed regardless of the shape of the specimen 1.

Through this, it is possible to prevent the electrolyte from flowing out to the bottom of the container 110.

The connecting member 150 includes a pair of connecting members 150, one end of each connecting member 150 is coupled to the coupling member 130, the other end is extended to both sides around the container 110 Can be deployed.

The electromagnet 160 includes a pair of electromagnets 160 and is disposed under each of the pair of connecting members 150 to be fixed to the specimen 1 during evaluation.

Each of the pair of electromagnets 160 has a property of generating magnetism by on / off of the switch 170, and thus can be fixed to the specimen 1 when current is applied.

Here, referring to FIGS. 3 to 5 together, each of the pair of electromagnets 160 may include a flat portion 161 and a curved portion 162 disposed on a lower surface.

The flat portion 161 is a partial region extending from the edge formed by the lower surface and the side surface of the electromagnet 160 to the center of the lower surface, and may have a flat surface.

In particular, referring to FIG. 4, when the specimen 1 to be evaluated is plate-shaped, the flat portion 161 may be fixed to the specimen 1 against the top surface.

The curved portion 162 is formed at the center of the lower surface of the electromagnet 160, and may have a curved surface so that the depth becomes deeper toward the center.

Specifically, a curved portion 162 may be disposed at the center of the lower surface of the electromagnet 160, and a flat portion 161 may be disposed around the curved portion 162.

In particular, referring to FIG. 5, the curved portion 162 may be fixed in contact with the circumferential surface of the specimen 3 when the specimen 3 to be evaluated is a cylindrical shape having a curved surface.

That is, each of the pair of electromagnets 160 can be fixed to the specimens 1 and 3 without being limited by the shape of the specimens 1 and 3.

The switch 170 is disposed on each of the pair of electromagnets 160 to control the current applied to the electromagnet 160.

That is, the current provided through the power supply (not shown) is applied to one end of the switch 170, and the current applied to the electromagnet 160 can be controlled under the control of the switch 170.

Hereinafter, a corrosion evaluation test method using a corrosion evaluation test apparatus according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

First, the specimens 1 and 3 to be evaluated are prepared.

Here, the specimens 1 and 3 may be plate-shaped specimens 1 or cylindrical or spherical specimens 3.

Thereafter, a pair of electromagnets 160 are arranged to match the external shape of the specimens 1 and 3, and then the switch 170 is operated, so that the electromagnet 160 is fixed to the specimens 1 and 3.

Here, while the electromagnet 160 is fixed to the specimens 1 and 3, the sealing member 140 is in close contact with the specimens 1 and 3 to seal the contacted region.

Subsequently, the corrosive solution 2 is filled in the container 110, and the upper part of the container 110 is sealed with a cover 120 in which the reference electrode 10 and the counter electrode 20 are fixed.

Here, the corrosive solution 2 filled in the container 110 may contact the specimen 1 through the hollow (not shown) of the sealing member 140.

Here, the corrosion solution 2 can be used in CMP or ECMP.

Here, the reference electrode (Reference electrode, 10) may be used Ag / AgCl, and the counter electrode (Counter electrode, 20) may be used graphite.

On the other hand, after sealing the upper portion of the container 110 with the cover 120, the reference electrode 10 and the counter electrode 20 may be inserted into the through hole of the cover 120.

Thereafter, while applying voltages to the specimens 1, 3, the reference electrode 10, and the counter electrode 20, a corrosion evaluation test may be performed to measure the open circuit potential and the corrosion degree of the specimens 1, 3, respectively.

Here, it is a method of measuring the impedance by applying a small AC signal having different frequencies to the specimens 1 and 3 and the electrodes 10 and 20 to the cell. The sine wave waveform is applied to the sample in order from a high frequency to a low frequency, and the impedance and an impedance are analyzed after measuring the amplitude and phase change according to the response sine wave passing through the sample. A graph expressed as a complex number in which one coordinate is drawn on one frequency is called a Nyquist Plot.

In addition, it is a Bode plot as one of the standard formats for frequency response characteristics of LTI (Linear Time Invariance) systems.

It is especially easy to read and compared to other methods. Bode plot is expressed as frequency (Hz) on the x-axis and Log (Impedance, Ohm) on the y-axis to measure the final impedance value at low frequency. In general, when evaluating the performance of coatings through EIS experiments, it can be considered that it has excellent anticorrosive performance when the impedance is 10 ^{8 or} more.

The above detailed description is to illustrate the present invention. In addition, the above-described content is to describe and describe preferred embodiments of the present invention, and the present invention can be used in various other combinations, modifications and environments. That is, it is possible to change or modify the scope of the concept of the invention disclosed herein, the scope equivalent to the disclosed contents, and / or the scope of the art or knowledge in the art. The embodiments described describe the best conditions for implementing the technical spirit of the present invention, and various changes required in specific application fields and uses of the present invention are possible. Accordingly, the detailed description of the invention is not intended to limit the invention to the disclosed embodiments. In addition, the appended claims should be construed to include other embodiments.

110: container 120: cover
130: coupling member 140: sealing member
150: connecting member 160: electromagnet
170: switch

Claims (7)

Upper and lower opening, the container is filled with electrolyte;
A cover disposed on the lower portion of the container and fixed with a reference electrode and a counter electrode immersed in an electrolyte solution;
A coupling member coupled to the container;
A sealing member having a hollow disposed at the center, disposed at a lower portion of the container, and contacting a specimen to be evaluated to prevent the corrosion solution from flowing out;
A pair of connecting members, one end of which is coupled to the coupling member, the other end of which extends to the outside of the container, respectively; And
A pair of electromagnets coupled to the lower portions of each of the pair of connecting members and fixed to the specimen when current is applied; Including,
Each of the pair of electromagnets includes a curved portion disposed on the lower surface and a flat portion disposed around the curved portion,
When the specimen has a plate shape, when a current is applied to the pair of electromagnets, the flat portion is in close contact with the specimen,
When the specimen has a cylindrical shape or a spherical shape, when a current is applied to the pair of electromagnets, the curved portion is in close contact with the outer peripheral surface of the specimen,
The sealing member is a corrosion evaluation test device formed of an elastic corrugated pipe.
delete delete delete delete According to claim 1,
A switch disposed on each of the pair of electromagnets and controlling current application; Corrosion evaluation test device further comprising. delete

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