KR20200064657A - corrosion test equipment and corrosion test method - Google Patents

Abstract

Disclosed are a corrosion test apparatus and a corrosion test method. According to an embodiment, the corrosion test apparatus comprises: a double-boiling tank including a mounting hole provided in an upper portion and capable of adjusting the temperature of a solution stored therein; a test container accommodating a specimen therein and mounted in the mounting hole so that the bottom of the test container is immersed in the double-boiling tank; and a corrosion solution supply unit supplying a corrosion solution to the test container mounted in the double-boiling tank, and capable of adjusting the supply amount and the supply time of the corrosion solution. The test container comprises: a test container for evaporation provided to cause the corrosion solution to be evaporated to the outside; and a test container for sealing provided to prevent the corrosion solution from being evaporated to the outside. The test container for sealing may include a condenser which condenses the corrosion solution evaporated therein. According to the present invention, the supply amount and the supply time of the corrosion solution can be adjusted.

Description

Corrosion test equipment and corrosion test method

The disclosed invention relates to a corrosion test apparatus and a corrosion test method for evaluating the corrosion resistance of a material.

Metal materials such as stainless steel are evaluated for corrosion resistance through corrosion tests.

When performing a corrosion test, the test vessel containing the specimen is placed in a bath, and the corrosion resistance of the material is evaluated by measuring the weight of the specimen that is corroded and reduced by the corrosion solution by supplying the corrosion solution to the test vessel, or the depth of corrosion of the specimen. .

On the other hand, when performing a corrosion test, the corrosion conditions of the specimen vary depending on the characteristics of the specimen or the request of the customer requesting the test. Accordingly, various types of corrosion testing apparatuses have been conventionally provided in response to the corrosion conditions of various specimens. There was a hassle that had to be applied individually.

It is intended to provide a corrosion test apparatus and a corrosion test method that can be effectively used for various types of corrosion test with different corrosion conditions of the specimen.

Corrosion test apparatus according to an embodiment is provided with a mounting hole on the top, the bath is provided to control the temperature of the solution stored therein; A test container that is mounted to the mounting hole to receive a specimen therein and to lock the bottom portion inside the bath; It includes a corrosion solution supply unit for supplying a corrosion solution to the test vessel mounted in the bath, provided to adjust the supply amount and the supply time of the corrosion solution; includes, the test vessel, the corrosion solution is provided to be evaporated to the outside Test vessel for evaporation; It includes; a test container for sealing provided to prevent evaporation of the corrosion solution to the outside; and the sealing test container includes a condenser for condensing the corrosion solution evaporated therein.

The sealing test container, the container body provided to be sealed; Further comprising a gas collection casing connected to the upper portion of the container body so that the container body and the inside communicate, the condenser is in the gas collection casing to condense the corrosion solution gas evaporating from the container body to the gas collection casing Can be installed.

The corrosion test apparatus may further include a cooling water supply unit supplying cooling water, and the condenser may include a cooling water induction pipe installed in the gas collection casing to pass cooling water supplied through the cooling water supply unit.

The cooling water induction pipe includes: a set of inflow guides supported on one side of the upper side of the gas collection casing to induce cooling water; A discharge guide part of the other end supported on the lower side of the gas collection casing to induce cooling water discharge; It may include a; coil portion in the form of a coil connecting the inlet guide portion and the outlet guide portion.

The cooling water supply unit, the water is stored, a cooling tank having an inlet and an outlet; A cooler that cools the water stored in the cooling tank; A pump for pumping cooling water so that the cooling water cooled through the cooler is discharged to the outside through the outlet; and a plurality of test containers for sealing are provided, and a plurality of cooling water discharged through the inlet are used for the sealing. Between the plurality of cooling water induction pipes so that the plurality of cooling induction pipes installed in the test container are continuously passed through and connected to the inlet, the inlet guide portion of one cooling water induction pipe is connected to the discharge guide portion of the other cooling water induction pipe. Can lead.

In addition, the corrosion test method according to an embodiment uses the corrosion test apparatus to mount a plurality of the test vessels for evaporation in which the specimens are accommodated in the bath, to heat the bath, and for a plurality of evaporations through the corrosion solution supply unit. Repeated evaporation method to corrode specimens by supplying a certain amount of corrosion solution according to a certain cycle in a test container; A constant temperature deposition method in which a plurality of the test vessels for sealing the specimens immersed in the corrosion solution are heated in the bath, and the condenser is driven to corrode the specimens; It is characterized in that it is executed by selecting any one of them.

According to the corrosion test apparatus and corrosion test method according to an embodiment, it is possible to control the supply amount and the supply time of the corrosion solution, and it is possible to selectively use the test vessel for evaporation and the test vessel for sealing, so the corrosion conditions of the specimen It can be effectively used for corrosion tests in various ways.

1 is a front view showing the structure of a corrosion test apparatus according to an embodiment.
2 is a cross-sectional view showing a test vessel for evaporation among test vessels of a corrosion test apparatus according to an embodiment.
3 is a cross-sectional view showing a sealed test container among test containers of a corrosion test apparatus according to an embodiment.
Figure 4 shows a state in which the corrosion test according to the repeated evaporation method is being performed by the corrosion test apparatus according to an embodiment.
5 shows a state in which a corrosion test according to a constant temperature deposition method is being performed by a corrosion test apparatus according to an embodiment.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments introduced below are provided as examples in order to sufficiently convey the spirit of the present invention to those skilled in the art to which the present invention pertains. The present invention is not limited to the embodiments described below and may be embodied in other forms. In order to clearly describe the present invention, parts not related to the description are omitted in the drawings, and in the drawings, the width, length, and thickness of components may be exaggerated for convenience. Throughout the specification, the same reference numbers refer to the same components.

As shown in Figures 1 to 3, the corrosion test apparatus according to an embodiment is heated in a hot water bath in a state in which the hot water bath 10 is provided to control the temperature of the water stored therein, and the specimen is accommodated therein. Corrosion solution supply unit 40 for supplying a corrosion solution to the test vessel (20,30) mounted to the bath tank 10, and the test vessel (20,30) mounted to the bath tank 10, and A cooling water supply unit 50 for supplying cooling water to the test vessels 20 and 30 mounted on the tank 10 and a control panel 60 for overall operation and control of the corrosion test apparatus may be provided.

All components of the above-described corrosion test apparatus may be integrally installed to form mutual bodies through a frame (not shown).

The hot water bath 10 is to provide a constant temperature condition suitable for the characteristics of the specimen, and a solution such as water may be filled in the hot water bath 10 to heat the test vessels 20 and 30 in a hot water bath method.

The hot water bath 10 may be provided with a temperature sensor 11 for measuring the temperature of the water, and a heater 12 for heating the water.

By controlling the driving of the heater 12 based on the temperature of the water sensed by the temperature sensor 11 in the control panel 60, the water inside the hot water bath 10 can maintain a constant temperature condition desired by the tester.

A plurality of mounting holes 13 are provided at the top of the middle bath 10, and the test vessels 20 and 30 are provided with a bottom bath 10 through the mounting holes 13 so that the bottom portion is immersed in water inside the middle bath 10. Can be mounted on. Around the mounting hole 13, a sealing 14 for sealing between the mounting hole 13 and the test vessels 20 and 30 may be installed.

A support 15 for supporting the test vessels 20 and 30 is installed on the bottom of the bath 10, and a through hole 15a is formed in the support 15 to allow the water inside the bath 10 to circulate evenly. Can be.

A see-through window 16 may be provided in front of the heavy bath 10 so that the tester can visually observe and confirm the progress or abnormality of the corrosion test.

A water level sensor and a water supply device (not shown) may be installed in the hot water tank 10. The control panel 60 controls the operation of the water supply device based on the amount of water in the hot water tank 10 detected by the water level sensor, so that the water level in the hot water tank 10 can be maintained within a certain range at all times. have.

The test vessels 20 and 30 may be provided through a corrosion-resistant material that is transparent to facilitate the observation of the interior and is less likely to be deformed in the corrosion solution.

The test container 2030 includes a test container 20 for evaporation where the corrosion solution is evaporated to the outside, and a sealed test container 30 provided to prevent evaporation of the corrosion solution to the outside.

The evaporation test container 20 is provided to evaporate the corrosion solution supplied to the inside after a certain period of time, and may be appropriately provided for a corrosion test by a repeated evaporation method.

The repeated evaporation method is a corrosion test method in which a specimen is placed in a test container capable of evaporating a corrosion solution, and the corrosion is evaluated by repeatedly supplying and evaporating the corrosion solution to the specimen to evaluate the corrosion degree of the specimen according to repeated contact of the corrosion solution.

As shown in Figure 2, the test vessel 20 for evaporation is provided with a container body 21 provided to allow evaporation of the corrosion solution, the container body 21 includes a body 22 and a cover 23 Can be configured.

The body 22 is provided so that the inner space is opened to the top, and the cover 23 can cover and close the opened top of the body 22. The cover 23 is provided with an evaporation hole 24 to allow evaporation of the corrosion solution, and the cover 23 on one side of the evaporation hole 24 may be provided with an inlet 25 for injection of the corrosion solution.

A second supply line 45, which will be described later, is inserted and connected to the injection port 25 to supply a corrosion solution into the container body 21, and the second supply line 45 and the injection port 25 around the injection port 25 are connected. ) Sealing member 26 for sealing between may be fitted.

The sealing test container 30 is provided to be integrally provided with a condenser 33 for condensing the evaporated corrosion solution, and prevents evaporation of the corrosion solution and also allows a long-term specimen to be used in the corrosion solution without replenishment of the corrosion solution. It is possible to keep the deposited state safe. Therefore, such a sealing test container 30 can be suitably used for corrosion test by a constant temperature deposition method made over a long period of time.

The constant temperature deposition method is a corrosion test method that evaluates the corrosion degree of a specimen in a constant temperature deposition environment by allowing the specimen to be immersed in the corrosion solution supplied to the test container for a long period of time at a constant temperature condition.

As shown in FIG. 3, the test container 30 for sealing is connected to be vertically erected on the upper portion of the container body 31 so that the container body 31 and the container body 31 communicate with each other. The gas collecting casing 32 is provided, and the condenser 33 may be installed in the gas collecting casing 32 to condense the corrosive solution gas evaporating from the container body 31 to the gas collecting casing 32.

The container body 31 may include a body 31a in which the inner space is opened upward, and a cover 31b covering the opened upper portion of the body 31a.

On the side of the cover 31b, a connection port 31c for connection of the gas collection casing 32 is formed, and a cover 31b on one side of the connection port 31c is provided with an injection port 31d that is opened and closed through a stopper 39. Can be.

Therefore, the cover 31b is provided to be entirely sealable except for the connection port 31c, and the gas collection casing 32 can be coupled to be closed to the connection port 31c through the bottom collection port 32a.

The condenser 33 may include a cooling water induction pipe 34 installed in the gas collection casing 32 to pass the cooling water supplied through the cooling water supply unit 50.

The cooling water induction pipe 34 is supported on one side of the lower portion of the gas collection casing 32 so as to induce cooling water discharge and a set of inlet guides 34a supported on one side of the upper side of the gas collection casing 32 to induce cooling water inflow. It may be configured to include a coil portion (34c) of the coil type connecting the discharge guide portion (34b) of the other end, and the inlet guide portion (34a) and the discharge guide portion (34b).

The cooling water induction pipe 34 increases the heat exchange area of the cooling water passing through the gas collection casing 32 and allows the cooling water to pass through the gas collection casing 32 by its own weight, thereby cooling the cooling water induction pipe 34 It can increase the condensation efficiency of the corrosion solution gas while reducing the energy consumption according to.

As shown in FIG. 5, the sealing test container 30 is composed of a plurality, and the cooling water can continuously pass through the plurality of cooling induction pipes 34 installed in the plurality of sealing test containers 30. Between the plurality of cooling water induction pipes 34 may be connected so that the inflow guide portion 34a of the one cooling water induction pipe 34 is connected to the discharge guide portion 34b of the other cooling water induction pipe 34.

Referring to FIG. 1 again, the corrosion solution supply unit 40 supplies the storage tank 41 at the bottom where the corrosion solution is stored, and the corrosion solution stored in the storage tank 41 to a plurality of test containers 20 and 30. A feeder 42 may be included.

The feeder 42 includes a plurality of cylinder pumps 43, and the plurality of cylinder pumps 43 is composed of a plurality corresponding to the number of the plurality of test vessels 10 and 20 mounted together in the hot water tank 10. It can be provided to supply the corrosion solution to the individual test vessel (20,30). Cylinder pump 43 may be employed in a form that pressurizes the corrosion solution to each test container (20,30) through the injection method to enable precise supply of fluid.

The corrosion solution of the storage tank 41 is delivered to the feeder 42 through a plurality of first supply lines 44, and the corrosion solution delivered to the feeder 42 is provided through a plurality of operation of each cylinder pump 43. It can be supplied to the individual test vessel (20,30) along the second supply line (45) of the.

When the tester sets the desired supply amount and the supply time of the corrosion solution through the control panel 60, the control panel 60 sets each test container (20, 30), the operation of the feeder 42 can be controlled.

According to the bush solution supply unit 40, it is possible to supply the correct amount of the corrosion solution in accordance with the set supply cycle even during the absence of the tester, thereby improving workability and corrosion test accuracy according to the corrosion test.

The cooling water supply unit 50 includes a cooling tank 51 in which water is stored, a cooler 52 for cooling water stored in the cooling tank 51, and cooling water cooled through the cooler 52 outside the cooling tank 51 It may include a pump 53 for discharging to, and a temperature sensor 54 for sensing the temperature of the cooling water.

The cooling tank 51 is provided with a discharge port 51a and a recovery port 51b for discharge and recovery of cooling water, and a discharge line 55 and a recovery line 56 are provided in the discharge port 51a and the recovery port 51b. Can be connected.

The control panel 60 controls the operation of the cooler 52 and the pump 53 based on the temperature of the coolant sensed by the temperature sensor 54, so that the condenser 33 is suitable for condensation efficiency of the evaporation solution gas. You can do it.

The control panel 60 may be provided with an operation unit 61 having a plurality of switches and a display unit 62 showing an operation state to control the corrosion test apparatus described above.

According to the corrosion test apparatus configured as described above, it is possible to selectively apply the evaporation test container 20 and the sealing test container 30, thereby conveniently selecting the corrosion test of the specimen by repeated evaporation and constant temperature deposition. You can do it.

As shown in FIG. 4, when it is desired to perform a corrosion test of a specimen by a repetitive evaporation method, the tester may mount a plurality of test vessels 20 for evaporation containing the specimen in the bath 10. . At this time, the second supply line 45 of the corrosion solution supply unit 40 may be connected to each evaporation test container 20.

In this state, by operating the control panel 60 to operate the heavy bath 10 and the corrosion solution supply unit 40, a plurality of evaporation test containers 20 that are heated in the middle of the hot water bath have a certain amount of corrosion solution for a long period of time. It can be supplied continuously.

And, as shown in Figure 5, only if you want to perform the corrosion test of the specimen by the constant temperature deposition method, the tester is equipped with a plurality of test vessels 30 containing the specimen inside the bath (10), Corrosion solution may be supplied to a plurality of sealing test containers 30 so that the specimen is immersed in the corrosion solution. At this time, the corrosion solution may be supplied through the corrosion solution supply unit 40. In this state, each sealing test container 30 is hermetically sealed, and the discharge line 55 and the recovery line 56 of the cooling water supply unit 50 may be connected to the plurality of sealing test containers 30.

At this time, the plurality of test vessels 30 for sealing may be connected so that the inflow guide portion 34a of the one side cooling water induction pipe 34 is connected to the discharge guide portion 34b of the other side of the cooling water induction pipe 34.

In this state, as the control panel 60 is operated to operate the hot water bath 10 and the cooling water supply unit 50, the plurality of sealing test containers 30 heated by the hot water are corroded for a long time while maintaining a constant temperature. It is possible to maintain the state immersed in the solution.

At this time, the cooling water discharged from the cooling tank 51 through the discharge line 55 is installed in a plurality of sealing test containers 30 and cooled again in a state that successively passes through a plurality of cooling water induction pipes 34 connected to each other. It is recovered and cooled by the tank 51, and accordingly, in the corrosion test process by the constant temperature deposition method, it is possible to increase the condensation efficiency of the corrosion solution.

10: heavy bath 13: mounting hole
20: test container for evaporation 30: test container for sealing
31: container body 32: gas collection casing
33: condenser 40: corrosion solution supply
50: cooling water supply unit 60: control panel

Claims (6)

A bath having a mounting hole at the top and provided to control the temperature of the solution stored therein;
A test container that is mounted to the mounting hole to receive a specimen therein and to lock the bottom portion inside the bath;
Includes; supplying a corrosion solution to the test vessel mounted in the bath, provided with a corrosion solution provided to be able to adjust the supply and supply time of the corrosion solution;
The test container,
A test container for evaporation wherein the corrosion solution is provided to be evaporated to the outside;
Includes; test container for sealing provided to prevent evaporation of the corrosion solution to the outside;
The sealing test container,
Corrosion test apparatus comprising a; condenser for condensing the corrosion solution evaporated therein. According to claim 1,
The sealing test container,
A container body provided to be sealed;
It further includes a gas collection casing connected to the upper portion of the container body so that the container body and the inside communicate;
The condenser is a corrosion test apparatus installed in the gas collection casing to condense the corrosion solution gas evaporating from the container body to the gas collection casing. According to claim 2,
Cooling water supply unit for supplying the cooling water; further includes,
The condenser is a cooling water induction pipe installed in the gas collection casing to pass the cooling water supplied through the cooling water supply unit; Corrosion test apparatus comprising a. According to claim 3,
The cooling water induction pipe,
A set of inflow guides supported on an upper side of the gas collection casing to induce cooling water inflow;
A discharge guide part of the other end supported on the lower side of the gas collection casing to induce cooling water discharge;
Corrosion test apparatus comprising a; coil portion in the form of a coil connecting the inlet guide portion and the discharge guide portion. The method of claim 4,
The cooling water supply unit,
A cooling tank in which water is stored and provided with a discharge port and a recovery port;
A cooler that cools the water stored in the cooling tank;
Includes; a pump for pumping the cooling water so that the cooling water cooled through the cooler is discharged to the outside through the discharge port;
The sealing test container is provided in plurality,
One side of the cooling water induction pipe is introduced between the plurality of cooling water induction pipes so that the cooling water discharged through the discharge port is recovered to the recovery port in a state that continuously passes through a plurality of cooling induction pipes installed in the plurality of test containers for sealing. Corrosion test device that is connected so that it is connected to the discharge guide part of the additional cooling water induction pipe. Using the corrosion test apparatus according to any one of claims 1 to 5,
The test vessel for evaporation containing a specimen therein is mounted in the bath to heat the bath, and a certain amount of corrosion solution is supplied to the plurality of test vessels for evaporation through the corrosion solution supply unit to corrode the specimen. Repeated evaporation; and
A constant temperature deposition method in which a plurality of the sealed test vessels in which a specimen is immersed in an internal corrosion solution is mounted in the bath to heat the bath, and the condenser is driven to corrode the specimen; Corrosion test method by selecting any one of them.

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