KR101265881B1 - Multi-channel accelerated corrosion apparatus of long-term experiment - Google Patents

Abstract

PURPOSE: A multi-channel device for testing accelerated corrosion for a long period is provided to automatically supply corrosion solution in which dissolved gas is removed or the dissolved gas is saturated at a predetermined period by using an automatic corrosion solution supplying device. CONSTITUTION: A multi-channel device for testing accelerated corrosion for a long period comprises an automatic corrosion solution supplying device(7), a multiplexer(10), and a multi-channel corrosion specimen holder(29). The automatic corrosion solution supplying device includes a solution tank(2) storing corrosion solution(1), a cylinder(3) supplying gas to the solution tank, a header(5) dispersing the corrosion solution for injecting the same amount of the corrosion solution into each corrosion specimen(4), and a time control valve(6) controlling time for injecting the corrosion solution. The multiplexer connects a circuit by connecting a plurality of electrode terminals mutually in order to flow an electron and cuts the circuit by cutting the connected electrode terminals in order to prevent a flow of the electron. The multi-channel corrosion specimen holder includes a plurality of holder unit(11), a solution container(12), and a double window(13). [Reference numerals] (AA) Back side; (BB) Front side

Description

Multi-channel accelerated corrosion apparatus of long-term experiment

The present invention is a multi-channel long-term accelerated corrosion test device, more specifically, in the long-term accelerated corrosion test, the temperature, the corrosion solution (electrolyte) concentration and the voltage applied to the corrosion specimens in order to accelerate the corrosion To simultaneously measure the corrosion voltage and current of the corrosion specimen while accelerating the corrosion by applying an anode voltage to the reference electrode, while removing dissolved gas or saturation. It provides multi-channel long-term accelerated corrosion test equipment that can automatically supply molten corrosion solution at regular intervals.

Corrosion test is a series of experiments to investigate the causes, mechanisms and trends of corrosion in which metal corrosion specimens are oxidized and lose their properties and performance as metals. These results predict the durability of the actual product and improve its corrosion resistance. To be used. It is essential to make a model that can predict the corrosion rate of corrosion specimens in the operating environment. This is because, depending on the corrosion rates predicted by this model, the amount (or thickness) of additional corrosion specimens for corrosion protection suitable for the life of the product and the process costs of applying them may be increased. Therefore, it is essential to improve the accuracy of the model in the corrosion test.

However, in general, it is costly and time-consuming to carry out the corrosion test under the same conditions as the actual operating environment and life of the product. In order to accelerate corrosion, it can raise the temperature, increase the relative humidity or flow the current through the electronic equipment. In addition, corrosion specimens may be corroded by depositing corrosion specimens (electrolyte solution) containing sodium chloride. When the corrosion test is conducted for about two months under the accelerated corrosion environment, the early, middle, and late corrosion mechanisms and corrosion patterns can be observed at a glance. This is called a long-term accelerated corrosion test. And based on these long-term accelerated corrosion test results, the accuracy of the model can be improved.

The present invention has been proposed to solve the above problems, and in the long-term accelerated corrosion test to mount a plurality of corrosion specimens and to accelerate the corrosion of them, temperature, corrosion solution (electrolyte) concentration and voltage applied to the corrosion specimens An object of the present invention is to provide a multi-channel long-term accelerated corrosion test apparatus that can be controlled simultaneously.

According to the existing research, there are many cases of long-term accelerated corrosion test by adjusting temperature and concentration of corrosion solution.However, in order to increase the corrosion amount of the corrosion test piece, the corrosion test was conducted by applying the anode voltage to the reference electrode. There was no case where corrosion voltage and current were measured. This is because the corrosion voltage is not measured when the voltage is measured in the state where the anode voltage is applied, but the potential of the applied anode voltage is measured. Accordingly, the present invention provides a multi-channel long-term accelerated corrosion test apparatus that can measure the corrosion voltage of the corrosion specimen and the current at the same time while accelerating the corrosion by applying the anode voltage to the reference electrode to solve the above problems. The purpose.

On the other hand, during the long-term accelerated corrosion test, since the ions of the corrosion specimens dissolve in the corrosion solution and the ion concentration of the corrosion specimens increases, it is necessary to replace the corrosion solution at regular intervals to rule out the effects. Since the dissolved gas concentration is different, it is necessary to supply it with a constant adjustment. Accordingly, an object of the present invention is to provide a multi-channel long-term accelerated corrosion test apparatus for automatically supplying the corrosion solution dissolved or dissolved in a saturated state in a long-term accelerated corrosion test process at regular intervals.

According to an aspect of the present invention,

It includes a solution tank for storing the corrosion solution, a cylinder for supplying gas to the solution tank, a header for distributing the same amount of corrosion solution for each corrosion specimen, and a time control valve for adjusting the injection time of the corrosion solution Corrosion solution automatic supply device;

It is connected to a DC power supply for supplying DC power to apply anode potential to each corrosion specimen, and a voltage / current meter for measuring the corrosion voltage and current density of each corrosion specimen. A multiplexer that connects the electrode terminals to each other so as to connect circuits to flow electrons or to disconnect the circuits so that electrons do not flow by disconnecting the electrode terminals from each other;

A collection of solutions connected to the corrosion solution automatic supply device and the multiplexer, respectively, and having a plurality of holder portions for mounting each corrosion specimen separately, and individually supplying the corrosion solution to the corresponding corrosion specimen mounted on each holder. And a multi-channel corrosion specimen holder device installed on the front side of the solution collection and including a double window to visually check the corrosion state of each corrosion specimen or to control the temperature of the corrosion solution inside the solution collection.

It provides a multi-channel long-term accelerated corrosion test apparatus comprising a.

According to the present invention, it is possible to obtain the effect of automatically supplying the corrosion solution of the dissolved concentration of the dissolved gas or the degassed corrosion solution every predetermined time through the automatic solution for supplying the corrosion solution in the long-term accelerated corrosion test.

In addition, according to the present invention, even in the case of accelerating the corrosion by applying the anode voltage to the corrosion specimen compared to the reference electrode during the long-term accelerated corrosion experiment process, the multiplexer can accurately measure the corrosion voltage and current density at that time every time. Can be obtained.

In addition, according to the present invention, in the long-term accelerated corrosion test process by mounting a plurality of corrosion specimens in the multi-channel corrosion specimen holder device and by adjusting the temperature of each corrosion specimen and the corresponding corrosion solution through a double window at the time of the experiment of each corrosion specimen Since the deviation is small and the holder parts of each corrosion specimen are adjacent to each other, heating energy required for temperature control during the experiment can be saved.

1 is a view showing the overall configuration of a multi-channel long-term accelerated corrosion test apparatus according to the present invention.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Figure 1 shows the overall configuration of a multi-channel long-term accelerated corrosion test apparatus according to the present invention.

The multi-channel long-term accelerated corrosion test apparatus according to the present invention comprises a corrosion solution automatic supply device (7), multiplexer 10 and the multi-channel corrosion specimen holder device 29, hereinafter with reference to FIG. The components of and their functions and actions will be described in detail.

Corrosion solution automatic supply device

In the case of the conventional long-term accelerated corrosion test, the experimenter prepared the corrosion solution by directly supplying the corrosion solution (electrolyte solution) in which the concentration of dissolved gas such as oxygen and carbon dioxide was constant and supplied the inside of the test apparatus using the dropper or pipette. . To this end, degassing to remove dissolved gases by injecting nitrogen gas into the corrosion solution for about 1 to 4 hours, or by spraying the gas in the corrosion solution for about 1 to 4 hours to saturate gases such as oxygen and carbon dioxide. I need work. This work requires the manpower and time of the experimenter for the long-term accelerated corrosion test, and the increase of the corrosion solution injection time when the number of corrosion specimens, i.e., the number of samples increases, increases the periodic sampling time including the above operation. The likelihood of failing to achieve is high and the gas concentration of the degassed or saturated solution is likely to change during prolonged injection.

In order to solve this problem, the present invention provides a multi-channel long-term accelerated corrosion test apparatus including a corrosion solution automatic supply device (7).

The corrosion solution automatic supply device 7 includes a solution tank (2) for storing the corrosion solution (1), a bomb (3) for supplying gas to the solution tank (2), and each corrosion specimen (4) It comprises a header (5) for dispensing so that the same amount of corrosion solution (1) is injected with respect to, and a time control valve (6) for adjusting the injection time of the corrosion solution (1). The solution tank (2) and the cylinder (3) are connected to the first siphon pipe (14), the solution tank (2) and the header (5) are connected to the second cyphon pipe (15), the time control valve ( 6) is installed on the second siphon pipe 15.

The time control valve 6 is a predetermined time to control the flow of the corrosion solution (1) pressurized in the solution tank (2) from the solution tank (2) to the header (5) due to the gas supplied from the cylinder (3) It serves to open or close the flow path of the corrosion solution 1, ie, the second cyphon pipe 15, every time.

Two cyphonic pipes, such as the first cyphonic pipe 14 and the second cyphonic pipe 15, are introduced into the solution tank 2, and the ends thereof are immersed in the corrosion solution 1. Here, the first cyphonic pipe 14 serves as an entrance area for the gas supplied from the cylinder 3 to enter the solution tank 2, and the second cyphonic pipe 15 is a gas supplied from the cylinder 3. Due to the pressure inside the solution tank 2, the corrosion solution 1 acts as an outlet from the solution tank 2 to the header 5. If nitrogen gas enters the solution tank (2), the dissolved gas in the corrosion solution (1) is degassed. If oxygen or carbon dioxide gas enters the solution tank (2), the immersion agent in the corrosion solution (1) 1 As oxygen or carbon dioxide gas comes out from the end hole of the siphon pipe 14, the corresponding gas is dissolved in the corrosion solution 1, so that the oxygen or carbon dioxide gas, that is, the dissolved gas saturated solution, can be supplied. .

Therefore, according to the present invention, the corrosion solution (1) having a concentration of saturated gas dissolved in the dissolved gas or the degassed corrosion solution (1) through the automatic solution for supplying the corrosion solution in a long-term accelerated corrosion test process automatically at a predetermined time. Supply effect can be obtained.

Multiplexer

In the case of the conventional long-term accelerated corrosion test, a method such as raising the ambient temperature or increasing the electrolyte concentration such as NaCl in the corrosion solution was used to accelerate the corrosion reaction. In addition, a method of accelerating corrosion by increasing the corrosion current of the corrosion specimen by applying the anode voltage to the corrosion specimen compared to the reference electrode was used. However, when applying the anode voltage as described above, a problem arises in that conventionally, the corrosion voltage cannot be accurately measured. This is because the corrosion voltage is not measured when the voltage is measured in the state where the anode voltage is applied, but the potential of the applied anode voltage is measured.

In order to solve this problem, the present invention provides a multi-channel long-term accelerated corrosion test apparatus including a multiplexer (10).

The multiplexer 10 connects a plurality of electrode terminals connected to each other to connect a circuit so that electrons flow or cuts off the circuit so that electrons do not flow by disconnecting the electrode terminals from each other.

The multiplexer 10 measures a DC power supply device 8 for supplying a DC power source to apply a positive potential to each corrosion specimen 4, and a corrosion voltage and current density of each corrosion specimen 4 at that time. The voltage / current measuring instrument 9 is connected.

In the experiment section in which the multiplexer 10 does not measure the corrosion voltage in the long-term accelerated corrosion test, the voltage from the DC power supply device 8 is connected to each corrosion specimen 4 so that each corrosion specimen 4 is compared to the reference electrode. Make a positive voltage. The reference electrode 27 penetrates the inside of the double window 13 of the multi-channel corrosion specimen holder device 29 to be described later and is contained in the solution collection 12, and each reference electrode 27 is connected to each other in parallel and in series. On the other hand, when measuring the corrosion voltage, the multiplexer 10 is coupled to the circuit only between each of the corrosion specimen (4) and the reference electrode 27 contained in the solution collection 12 corresponding to the current flow and other corrosion specimens ( It should be insulated from 4). Therefore, the reference electrode 27 contained in the other solution collection 12 does not interfere with the measurement of the corrosion voltage and current density at that time.

When measuring the corrosion voltage, the experimenter controls the multiplexer 10 to cut off the anode voltage applied to each corrosion specimen 4 for about 100 milliseconds, and during that time, the voltage / current meter 9 was applied to each corrosion specimen 4. By connecting sequentially, the corrosion voltage and current density at that time can be measured sequentially for each specimen. That is, at the sampling time for measuring the corrosion voltage and current density at that time, the multiplexer 10 breaks the connection circuit with the terminal connected to the DC power supply 8 for a short time within about 100 milliseconds, and each corrosion specimen 4 The individual circuits corresponding to each of the corrosion specimens 4 between the multiplexer 10 and the bolt 19 (described later) that are physically in close contact and electrically connected (ie, energized). As a result, a circuit capable of flowing an electrical signal is connected between the voltage / current meter 9 and each corrosion specimen 4 so that the voltage / current meter 9 can measure the corrosion voltage and current density at that time. .

In this case, about 100 milliseconds is about 864,000th of 24 hours a day and about 2,592,000th of a month or 30 days, even if the anode voltage is not applied during this period. Does not.

Therefore, according to the present invention, even in the case of accelerating corrosion by applying the anode voltage to the corrosion specimen 4 compared to the reference electrode in the course of a long-term accelerated corrosion experiment, the corrosion voltage and current density at that time are precisely set by the multiplexer 10. A measurable effect can be obtained. That is, according to the present invention, by accelerating the corrosion of the corrosion specimen (4) by applying a positive voltage can move the corrosion specimen (4) to a relatively + potential and at the same time between the corrosion solution (1) and the corrosion specimen (4) It is possible to measure the corrosion potential of and the current density at this time.

Multichannel Corrosion Specimen  Holder device

In the conventional long-term accelerated corrosion test, each corrosion specimen (sample) was deposited in a corrosion solution for each type, and the experiment was performed by keeping it at a constant temperature in a thermostat or oven. Therefore, a holder for mounting each corrosion specimen, a flask for depositing such holders, and the like, and a thermostat and an oven for maintaining a constant temperature of the flask containing the holder were also required. However, in this case, a laboratory space for installing a thermostat or oven is required, and since the holder is equipped with corrosion specimens, it is necessary to add additional corrosion solution due to the volume of the holder, and to maintain the waterproof performance of the entire holder. In addition to installing the O-ring between the specimen and the holder, there was a problem in that a cap and an O-ring of a separate polymer-based material were additionally installed to waterproof the bolts that closely adhere the corrosion specimen to the holder. In addition, in order for the corrosion specimen to work as a working electrode, wires must be connected to the bolts that closely adhere the corrosion specimens. However, after the wires are connected, additional waterproof work is required for the wires. There was a necessary problem. In addition, all of the corrosion solution, corrosion specimen and holder necessary for the experiment proceeds to put the experiment in a thermostat or oven, there was a problem that the energy for heating or cooling the entire experimental device, such as the holder and the flask, not the corrosion specimen was additionally consumed.

In order to solve this problem, the present invention provides a multi-channel long-term accelerated corrosion test apparatus including a multi-channel corrosion specimen holder device (29).

The multi-channel corrosion specimen holder device 29 has a plurality of holder portions 11 to which each of the corrosion specimens 4 can be individually mounted, and corresponding corrosion specimens 4 mounted on the respective holder portions 11. The solution collection 12 for supplying the corrosion solution (1) to the individual, and is installed on the front of the solution collection 12, so that the corrosion state of each corrosion specimen (4) can be visually confirmed or the solution collection ( 12) it comprises a double window 13 to control the temperature of the corrosion solution (1) inside.

Solution collection 12 may preferably be made of acetal material, the interior space of which is filled with the corrosion solution (1) supplied from the corrosion solution automatic supply device (7), the corrosion solution (1) during the experiment By contacting the corrosion specimen 4 through a hole machined to be in contact with the corrosion specimen (4) to accelerate the corrosion of the corrosion specimen (4).

The solution collection 12 is provided with a plurality of holders 11 that can be individually mounted to each corrosion specimen (4), such holder portion 11 can be manufactured and configured as follows.

First, drill the hole 16 so that the corrosion specimen 4 can come into contact with the corrosion solution 1. And the outer periphery of the hole 16 is processed in the jaw-shaped seating point 18 that can be seated in the order of the O-ring 17 and the corrosion specimen (4). Therefore, the O-ring 17 is seated on the outer concave portion of the seating point 18 and the corrosion specimen 4 is seated thereon. The corrosion specimen 4 at this time is the corrosion solution 1 through the hole 16. It comes in contact with.

The rear threaded portion of the hole 16 is machined with a horizontal thread 20, and the bolt 19 is fastened thereto. The fastened bolt 19 closely contacts the corrosion specimen 4 and the O-ring 17 to prevent the corrosion solution 1 from leaking out of the corrosion specimen 4. As such, the bolt 19 serves to provide the watertightness of preventing the corrosion solution 1 from leaking, and also electrically connects the corrosion specimen 4 and the multiplexer 10 so that the corrosion specimen 4 is a working electrode. It also plays a role in helping to get things done. As such, the hole 16 and the O-ring 17 and the seating point 18 of the corrosion specimen 4, and the horizontal thread 20 and the bolt 19, are machined so that the corrosion specimen 4 can contact the corrosion solution 1. ) Are arranged in a straight line under the same center line.

Out of the seating point 18 and the horizontal thread 20 of the O-ring 17 and the corrosion specimen 4, the solution injection hole 21 which serves as an inlet for the addition of the corrosion solution 1 to the solution collection 12 ) And the solution discharge hole 22 serving as an outlet for discharging the corrosion solution 1, respectively, the corrosion solution 1 can be automatically supplied and exchanged at regular intervals from the corrosion solution automatic supply device 7. It was made. The drain valve 23 is attached to the solution discharge hole 22 to control the flow rate of the corrosion solution 1 coming out of the solution collection 12. The solution inlet hole 21 is connected to the header 5 of the automatic corrosion solution supplying device 7 so that the flow path is connected to receive the corrosion solution 1 every predetermined time.

The solution collection 12 includes a spacer 24 between the double glazing 13 (to be described in detail later) and the holder portion 11 (if the solution collection 12 is made of acetal material, the spacer 24 is also present). It is preferable to be made of acetal material, the double glazing 13 and the spacer 24, and the holder portion 11 to the adhesive (if the solution collection 12 and the spacer 24 is made of acetal material) By using the adhesive), the fabrication is finally completed. The spacer 24 serves to prevent the corrosive solution 1 from mixing with each other by making a plurality of interfaces in the inner space of the solution collection 12 so that the corrosive solution 1 can be individually acted on each corrosive specimen 4. . The corrosion solution 1 in the solution collection 12 is in contact with the corrosion test piece 4 of the holder portion 11 to cause corrosion of the corrosion test piece 4, in which case the corrosion solution 1 in the solution collection 12 is It is periodically replaced through the solution input hole 21 and the solution discharge hole 22 described above.

The double window 13 is installed on the front portion of the solution collection 12. The double glazing 13 may preferably be made of acetal material. The double window 13 may allow the experimenter to visually check the corrosion state of the corrosion specimen 4 or by using a CCD microscope in real time by using the acetal of the transparent material.

Meanwhile, a heater 25 and a blower 26 are installed inside the double window 13 to control the air temperature inside the double window 13, and through this, the corrosion solution 1 inside the solution collection 12. You can maintain a constant experiment temperature by adjusting the temperature of. In addition, by controlling the temperature of the corrosion solution (1) inside the solution collection 12 acting on each corrosion specimen (4) with one double window 13 at a time to produce a holder for each corrosion specimen (4) The temperature deviation can be made smaller than if the temperature was adjusted individually.

On the other hand, the double window 13 is in contact with the solution collection 12, so that the reference electrode 27 penetrates to be partially deposited in the corrosion solution (1) in the solution collection (12). The reference electrodes 27 are connected in parallel and in series with each other by wires, and only one of these wires comes out of the double glazing 13. Even if only one line comes out of the double glazing 13, the reason for the experiment is that the corrosion test of each corrosion test piece (4) and the current density at that time, except for the test test piece (4) other than the test piece (4) The electrode connected to) is electrically insulated from the circuit by the multiplexer 10 so that the reference electrode 27 deposited in the solution collection 12 directly applied to the other corrosion specimen 4 affects the voltage and current measurement. Because it is not crazy. The line connected to the reference electrode 27 and out of the double glazing 13 is connected to the multiplex.

In the case of the multi-channel corrosion specimen holder device 29 according to the present invention, the temperature control of each of the corrosion specimens 4 and the corrosion solution 1 is controlled by surrounding the solution collection 12 to suppress heat leakage. It is desirable to further include a heat insulator 28 that allows for more precise control than before it is suppressed.

Therefore, according to the present invention, a plurality of corrosion specimens 4 are mounted on the multi-channel corrosion specimen holder device 29 in a long-term accelerated corrosion test process, and each corrosion specimen 4 and the corresponding corrosion solution 1 are provided through the double window 13. By controlling the temperature at once, the temperature deviation during the experiment of each of the corrosion specimens 4 becomes small and the heating energy required for the temperature control during the experiments because the holder portions 11 of each of the corrosion specimens 4 are adjacent to each other. The effect can be saved.

It will be apparent to those skilled in the art that various modifications, substitutions and substitutions are possible, without departing from the scope and spirit of the invention as disclosed in the accompanying claims. will be. Therefore, the embodiments disclosed in the present invention and the accompanying drawings are not intended to limit the technical spirit of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by the embodiments and the accompanying drawings. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1: corrosion solution 2: solution tank
3: bomb 4: corrosion test specimen
5: header 6: time control valve
7: Corrosive solution automatic supply device
8: DC power supply
9: Voltage / Current Meter 10: Multiplexer
11 holder portion 12 solution collection
13: double glazing 14: first cell phone piping
15: second cell phone piping 16: hole
17: O-ring 18: Arrival point
19: bolt 20: horizontal thread
21: solution input hole 22: solution discharge hole
23: drain valve 24: spacer
25: heater 26: blower
27: reference electrode 28: heat insulating material
29: multi-channel corrosion specimen holder device

Claims (22)

A solution tank (2) for storing a corrosion solution (1), a cylinder (3) for supplying gas to the solution tank (2), and the same amount of corrosion solution (1) are injected into each corrosion specimen (4). Corrosion solution automatic supply device (7) comprising a header (5) for distributing, and a time control valve (6) for adjusting the injection time of the corrosion solution (1);
DC power supply (8) for supplying DC power to apply anode potential to each corrosion specimen (4), and voltage / current measuring instrument for measuring the corrosion voltage and current density of each corrosion specimen (4) A multiplexer 10 connected to (9), which connects a plurality of electrode terminals connected to each other to connect a circuit so that electrons flow, or cuts off a circuit to prevent electrons from flowing by disconnecting the electrode terminals from each other. And;
It is connected to the corrosion solution automatic supply device 7 and the multiplexer 10, respectively, and provided with a plurality of holder portions 11 for mounting each corrosion specimen 4, each holder portion 11 The solution collection 12 for supplying the corrosion solution (1) to the corresponding corrosion specimen (4) mounted on the installation and the front of the solution collection 12, the corrosion state of each corrosion specimen (4) with the naked eye A multi-channel corrosion specimen holder device (29) comprising a double window (13) to be able to check or to adjust the temperature of the corrosion solution (1) in the solution collection (12);
Multi-channel long-term accelerated corrosion test apparatus comprising a. The method of claim 1,
The multi-channel long-term accelerated corrosion test, characterized in that the first siphon pipe 14 and the second siphon pipe 15 is introduced into the solution tank 2 and the ends thereof are submerged in the corrosion solution 1. Device. The method of claim 2,
The solution tank (2) and the cylinder (3) is connected to the first siphon pipe (14), in which case the first siphon pipe (14) is the gas supplied by the cylinder (3) is the solution Multi-channel long-term accelerated corrosion test apparatus, characterized in that the entry into the tank (2). The method of claim 2,
The solution tank 2 and the header 5 are connected to the second siphon pipe 15, in which case the second siphon pipe 15 is pressurized due to the gas supplied from the cylinder 3. The multi-channel long-term accelerated corrosion test apparatus, characterized in that the corrosion solution (1) acts as an outlet flows from the solution tank (2) to the header (5) due to the pressure inside the solution tank (2). The method of claim 2,
The time control valve (6) is installed on the second siphon pipe (15), in this case the time control valve (6) in the solution tank (2) due to the gas supplied from the cylinder (3) The pressurized corrosion solution (1) is characterized in that it serves to open or close the second siphon pipe (15) every predetermined time to control the flow flowing from the solution tank (2) to the header (5) Multi-channel long-term accelerated corrosion test device. The method of claim 1,
The multiplexer 10 connects the voltage supplied from the DC power supply 8 to each corrosion specimen 4 in an experiment section in which the corrosion voltage is not measured at the time of the experiment, so that each corrosion specimen 4 is the anode of the reference electrode. Multi-channel long-term accelerated corrosion test apparatus characterized in that to have a voltage. The method of claim 1,
When the multiplexer 10 measures the corrosion voltage, the circuit is coupled only between each of the corrosion specimens 4 and the reference electrodes 27 contained in the solution collection 12 corresponding thereto so that a current flows and other corrosion specimens ( 4) Multi-channel long-term accelerated corrosion test apparatus characterized in that the insulation to. The method of claim 7, wherein
At the sampling time for measuring the corrosion voltage and current density at that time, the multiplexer 10 breaks the connection circuit with the terminal connected to the DC power supply 8 for a short period of time within 100 milliseconds and with each corrosion specimen 4 A multi-channel long-term accelerated corrosion test apparatus, characterized in that to sequentially connect the individual circuits corresponding to each of the corrosion specimens (4) that are physically in close contact and electrically connected. The method of claim 1,
The solution collection 12 is a multi-channel long-term accelerated corrosion test apparatus, characterized in that made of acetal material. The method of claim 1,
The holder portion 11,
A hole 16 movable to allow the corrosion specimen 4 to contact the corrosion solution 1;
A jaw-shaped seating point 18 which is machined outside the hole 16 and allows the O-ring 17 and the corrosion specimen 4 to be seated in this order;
Horizontal thread 20 is processed to the rear portion of the hole 16 so that the bolt 19 can be fastened;
Multi-channel long-term accelerated corrosion test apparatus comprising a. 11. The method of claim 10,
The bolt 19 is a multi-channel long-term accelerated corrosion test apparatus, characterized in that the corrosion solution (1) by closely contacting the corrosion test piece (4) and O-ring (17) serves to prevent leakage from the corrosion test piece (4). 11. The method of claim 10,
The bolt 19 is electrically connected between the corrosion specimen 4 and the multiplexer 10 to help the corrosion specimen 4 to operate as a working electrode, multi-channel long-term accelerated corrosion, characterized in that Experimental apparatus. The method of claim 1,
The solution collection 12 has a solution input hole 21 serving as an inlet for injecting the corrosion solution 1 into the solution collection 12 and a solution discharge hole 22 serving as an outlet for discharging the corrosion solution 1. Multi-channel long-term accelerated corrosion test apparatus characterized in that each provided. The method of claim 13,
The solution inlet hole 21 is connected to the header 5 of the corrosion solution automatic supply device 7 so that the solution collection 12 can receive the corrosion solution 1 every predetermined time. Multi-channel long-term accelerated corrosion test device made. The method of claim 13,
The solution discharge hole 22 is equipped with a drain valve 23, multi-channel long-term accelerated corrosion test apparatus, characterized in that to control the flow rate of the corrosion solution (1) coming from the solution collection (12). The method of claim 1,
The solution collection 12 has a spacer 24 between the double glazing 13 and the holder portion 11 to allow the spacer 24 to form a plurality of interfaces in the interior space of the solution collection 12. Multi-channel long-term accelerated corrosion test device characterized. 17. The method of claim 16,
The spacer 24 is a multi-channel long-term accelerated corrosion test apparatus, characterized in that made of acetal material. The method of claim 1,
The double window 13 is a multi-channel long-term accelerated corrosion test apparatus, characterized in that made of acetal material. The method of claim 1,
The multi-channel long-term accelerated corrosion test apparatus, characterized in that the inside of the double window (13) by installing a heater (25) and a blower (26) to control the air temperature inside the double window (13). The method of claim 1,
The double-window 13 is characterized in that the reference electrode 27 penetrates the surface (A) in contact with the solution collection 12 to be partially deposited in the corrosion solution 1 in the solution collection 12. Multi-channel long-term accelerated corrosion test device. 21. The method of claim 20,
The reference electrodes (27) are connected in parallel and in series with each other by wires, only one of these wires out of the double window (13) is connected to the multiplex long-term accelerated corrosion test apparatus, characterized in that. The method of claim 1,
By enclosing the circumference of the solution collection 12 to suppress heat leakage, the temperature control of each corrosion specimen 4 and the corrosion solution 1 can be further controlled so that the thermal control material 28 can be more precisely controlled than before the heat leakage is suppressed. Multi-channel long-term accelerated corrosion test apparatus comprising a.

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