WO2018070769A1 - Method for post-heat treatment for reducing primary water stress corrosion cracking in dissimilar weld so as to improve microstructure of material - Google Patents

Abstract

The present invention relates to a method for post-heat treatment for reducing PWSCC in a dissimilar weld so as to improve the microstructure of a material, the method comprising: a step of heating the external surface of a dissimilar weld of a pipe to a temperature of 570℃ to 620℃; a step of maintaining the temperature of the heated state for 4 to 10 hours; and a step of having the inner surface of the dissimilar weld remain cool (at room temperature) by using cooling water or a sprinkler while the temperature of the outer surface of the weld is maintained at 570℃ to 620℃. The method produces a PWSCC resistance-increasing precipitate in the microstructure of the dissimilar weld and can prevent cracking therein and does not cause stainless steel sensitization.

Description

Reduction of Primary Stress Corrosion Cracks in Dissimilar Welds to Improve the Microstructure of Materials

The present invention comprises the steps of heating the outer surface of the hetero-welded portion of the pipe to 570 ℃ to 620 ℃ temperature, maintaining the temperature of the heating state of 4 hours to 10 hours, and the outer surface of the hetero-welded portion of 570 ℃ to 620 ℃ temperature While maintaining the heat treatment by the method comprising the step of maintaining the cooling (room temperature) by using the cooling water or the water spray device during the maintenance, a precipitate is formed in the microstructure of the dissimilar welding portion after the heat treatment to produce a crack and The present invention relates to a method for preventing the first stress corrosion cracking reduction after heat treatment, which has a preventive effect and does not generate sensitization of stainless steel during heat treatment, but improves the microstructure of the material.

Nuclear power plants have many heterojunctions composed of carbon steel-stainless steel (Ni alloy welding).

Such heterojunctions are known to be susceptible to primary water stress corrosion cracking (PWSCC).

The primary causes of stress corrosion cracking are high tensile residual stresses in welds, weak material properties, and hydrochemical environment.

In case of carbon steel, heat treatment is performed after welding to remove residual stress, but post-treatment is not performed due to the problem of sensitization of materials.

The microstructure of the weld is different from that of the general alloy 600 and is relatively vulnerable to primary stress corrosion cracking (PWSCC).

Korean Patent Publication No. 10-2011-0074136 discloses a technical configuration of a post-heat treatment method of a high carbon steel welded part, but it is irrelevant to dissimilar metal welded parts including stainless steel.

In addition, the present invention is to maintain the temperature of the heating state of 4 to 10 hours and to produce a precipitate that increases the resistance to the first order stress corrosion cracking (PWSCC) in the microstructure of the heterogeneous welds, there is an effect of preventing cracks, stainless Technical configurations such as heat treatment at a temperature at which no sensitization of the steel occurs, and the difference in the effect thereof is remarkable.

Korean Patent Laid-Open Publication No. 10-2015-0078802 discloses a technical configuration of a post-heat treatment method for preventing intergranular cracking of welded parts of an austenitic heat-resistant material, but there is a difference in the heat treatment temperature from the present invention. The temperature is maintained for 4 to 10 hours, and precipitates are formed in the microstructure of the dissimilar welds to increase resistance to first order stress corrosion cracking (PWSCC), prevent cracking, and do not cause sensitization of stainless steel. There is a significant difference in the technical composition and effect of

The problem to be solved by the present invention is to improve the primary water stress corrosion cracking (PWSCC) resistance of the heterojunction of the carbon steel and the stainless steel joint, the post-heat treatment method of the heterojunction of the stainless steel does not occur To provide.

Another problem to be solved by the present invention is to heat the induction heating device or a band heater on the outside of the heterojunction of the carbon steel and stainless steel bonded to the inside and to cool the water or watering device inside to maintain the set temperature difference for a set time ㅇ It provides a post-heat treatment method for heterojunctions that can improve the resistance to primary stress corrosion cracking and improve the microstructure of materials by heat treatment.

Means for Solving the Problems In the after-treatment method for dissimilar weld portions for reducing the first stress corrosion cracking of the dissimilar weld portion for improving the microstructure of the material, the outer surface of the dissimilar weld portion of the pipe is heated to a temperature of 570 ° C. to 620 ° C. Heating to a set temperature between; Maintaining the outer surface of the heterogeneous welding portion of the pipe for a set time at a temperature set between 570 ° C and 620 ° C; And maintaining the set temperature by cooling the inner surface of the welded part with a cooling device while maintaining the outer surface of the dissimilar welded part at a set temperature.

The hetero-weld portion post-heat treatment method as a solution to another object of the present invention further comprises the step of heating the outer surface of the hetero-welded portion to a temperature set between 570 ℃ to 620 ℃ to maintain for 4 hours to 10 hours. To provide.

In another aspect of the present invention, the heterogeneous welding part post-heat treatment method uses a heating device to maintain the temperature set between 570 ° C. and 620 ° C. using a heating device, while the inner surface of the heterogeneous welding part is maintained at room temperature using a coolant or a watering device. It is to provide a hetero-weld post-heat treatment method further comprising the step of maintaining.

As a solution to another problem of the present invention, the hetero-welded part post-heat treatment method is configured to heat the hetero-welded part with an induction heating device or a vane heater heating device capable of rapid heating.

The present invention has an advantageous effect that a precipitate is produced in the microstructure of the weld through the heat treatment after welding to increase the resistance to the first order stress corrosion cracking (PWSCC).

In addition, the present invention exhibits higher resistance to primary stress corrosion cracking (PWSCC) than before post-heat treatment, while the stainless steel sensitization does not occur in terms of crack generation.

Figure 1 shows the heating time and temperature for the post-heat treatment of the dissimilar welding portion for reducing the primary stress corrosion cracking of the dissimilar welding portion for improving the microstructure of the material.

It looks at the specific content for practicing the present invention.

The present invention comprises the steps of heating the outer surface of the hetero-welded portion of the pipe to 570 ℃ to 620 ℃ temperature, maintaining the temperature of the heating state of 4 hours to 10 hours, and the outer surface of the hetero-welded portion of 570 ℃ to 620 ℃ temperature It relates to a PWSCC reduction post-heat treatment method of a heterogeneous welding for improving the microstructure of the material, including the step of maintaining the cooling (at room temperature) of the inner surface of the weld using a cooling water or a sprinkling device during the holding.

In the post-heat treatment of the hetero welds according to the present invention, precipitates are formed in the microstructure of the hetero welds to increase resistance to the first order stress corrosion cracking (PWSCC), thereby preventing cracks.

The temperature applied to the outside of the joint between the carbon steel and the stainless steel was heat-treated at 620 ° C. or less so that the sensitization of the stainless steel did not occur.

Look at a specific embodiment of the present invention.

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A specific embodiment of the present invention will be described based on the drawings.

Nuclear power plants have many heterojunctions composed of carbon steel-stainless steel (Ni alloy welding).

Such heterojunctions are known to be susceptible to primary water stress corrosion cracking (PWSCC).

Heat treatment is performed after welding to remove residual stress in the case of carbon steel, but in the case of stainless steel, homogeneous welding and dissimilar welding are not subjected to post-heat treatment due to material sensitization.

The microstructure of the weld is different from the microstructure of a typical alloy 600 and is relatively vulnerable to primary stress corrosion cracking (PWSCC).

The present invention considers the problems exposed in the prior art to remove the residual stress of the carbon steel of the dissimilar welds through post-heat treatment of the dissimilar welds, and to solve the problem of material sensitization of stainless steel, the heat treatment temperature applied to the outside of the weld during the post-heat treatment is 620 ℃ It is performed below.

In the present invention, after the heat treatment temperature was performed at 620 ° C. or less, no sensitization occurred as a result of the test.

It looks at the technical configuration according to the present invention.

And heating the outer surface of the hetero-welded portion of the pipe to a temperature set between 570 ° C and 620 ° C.

And maintaining the outer surface of the heterogeneous welding portion of the pipe for a set time at a temperature set between 570 ° C and 620 ° C.

After the heat treatment according to the present invention includes the step of maintaining the cooling (at room temperature) by flowing the cooling water or spraying the inner surface of the welded portion using a sprinkling device while maintaining the outer surface of the heterogeneous welding portion at a temperature of 570 ℃ to 620 ℃.

The set time for applying heat to the heterogeneous welding portion for the post-heat treatment is preferably 4 hours to 10 hours.

Heat treatment after the heterogeneous welding portion according to the present invention is preferable to maintain the temperature difference (ΔT) between the outer surface and the inner surface by heating the outer surface with a heating device and the inner surface by cooling water or by sprinkling using a sprinkler.

As described above, the outer surface of the heterogeneous welding part is heated by using a heating device including a conventional induction heating device or a band heater capable of rapid heating to maintain a temperature set between 570 ° C. and 620 ° C., and an inner surface of the heterogeneous welding part using a cooling water or a watering device. In the case of maintaining the cooling (at room temperature) by using the precipitates to increase the PWSCC resistance in the microstructure of the heterogeneous welds, and at the same time to prevent cracking occurs.

In the step of cooling (normal temperature) the inner surface of the weld, it is preferable to maintain the temperature of the inner surface at about 10 ° C. to about 40 ° C., but it may be out of this.

After heat treatment, no sensitization of stainless steel occurred.

In order to facilitate understanding of the present invention, the technical configuration of the post-heat treatment method for dissimilar welds for reducing the primary stress corrosion cracking of the dissimilar welds for improving the microstructure of the material according to the present invention will be summarized.

And heating the outer surface of the dissimilar welding portion of the pipe to a set temperature between 570 ° C. and 620 ° C. using a heating device, and maintaining the outer surface of the dissimilar welding part of the pipe for a set time between 570 ° C. and 620 ° C. It includes a step.

The method may further include cooling the inner surface of the welded portion with a cooling device to maintain the set temperature while maintaining the outer surface of the heterogeneous welded portion at the set temperature.

The hetero-weld portion post-heat treatment method of the present invention includes heating the outer surface of the hetero-weld portion to a temperature set between 570 ° C. and 620 ° C. and maintaining it for 4 hours to 10 hours.

The heterogeneous weld post-heat treatment method may further include maintaining an inner surface of the heterogeneous weld by using a cooling device or a water spraying device while maintaining the temperature set between 570 ° C. and 620 ° C. using a heating device. .

The hetero-weld post-heat treatment method may be configured to provide a shielding ring at the interface of the hetero-junction for efficient treatment, and to heat-treat by varying the heat treatment temperatures of the carbon steel portion and the stainless steel portion.

The shielding ring may be installed at the interface of the heterojunction, and the carbon steel part may be supplied with high energy by using an induction heating apparatus, and the stainless steel part, which is sensitive to heat, may be configured to supply heat with energy lower than that of the carbon steel.

As a result of the experiment, when the microstructure of the heterogeneous weld material was improved by the post-heat treatment, the durability of the weld was increased by 30% or more.

The present invention comprises the steps of heating the outer surface of the hetero-welded portion of the pipe to 570 ℃ to 620 ℃ temperature, maintaining the temperature of the heating state of 4 hours to 10 hours, and the outer surface of the hetero-welded portion of 570 ℃ to 620 ℃ temperature The method comprising the step of maintaining the cooling (room temperature) of the inner surface of the weld using a cooling water or a sprinkler during the maintenance, the precipitate is formed to increase the PWSCC resistance in the microstructure of the dissimilar welds, there is an effect of preventing cracks, stainless The sensitization of steel is highly industrially available because it provides a PWSCC reduction post-heat treatment method for dissimilar welding to improve the microstructure of materials that do not occur.

Claims (6)

1. In the post-heat treatment method of the dissimilar welds to reduce the first-order stress corrosion cracking of the dissimilar welds to improve the microstructure of the material,

   Heating the outer surface of the dissimilar welding portion of the pipe to a set temperature between 570 ° C. and 620 ° C. using a heating device;

   Maintaining the outer surface of the heterogeneous welding portion of the pipe for a set time at a temperature set between 570 ° C and 620 ° C; And

   And maintaining the set temperature by cooling the inner surface of the weld part with a cooling device while maintaining the outer surface of the dissimilar weld part at a set temperature.
2. The method of claim 1,

   The hetero-weld portion post-heat treatment method is characterized in that the outer surface of the hetero-weld portion is heated to a temperature set between 570 ℃ to 620 ℃ to maintain for 4 hours to 10 hours.
3. The method of claim 1,

   The heterogeneous weld post-heat treatment method is characterized in that the inner surface is maintained at room temperature by using a cooling water or a sprinkler while the outer surface of the hetero weld is maintained at a temperature set between 570 ° C. and 620 ° C. using a heating device. Way.
4. The method according to any one of claims 1 to 3,

   Heating device is a hetero-weld post heat treatment method, characterized in that the rapid heating induction heating device or vant heater heating device.
5. The method according to any one of claims 1 to 3,

   The hetero-weld post-heat treatment method is characterized in that the shielding ring is installed on the interface of the hetero-junction, and the heat treatment is performed by varying the heat treatment temperature of the carbon steel portion and the stainless steel portion.
6. The method of claim 5,

   The heterogeneous welded post-heat treatment method is characterized in that a shielding ring is installed at the interface of the heterojunction, a carbon steel part supplies high energy, and a stainless steel part sensitive to heat supplies lower energy than carbon steel by using an induction heating apparatus. Post heat treatment method.

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