KR20180111729A - Heat treatment method for improving residual stress of heterojunction in nuclear power plant - Google Patents

Abstract

The present invention relates to a method for reducing residual stress of a hetero-welding portion using post-heat treatment. According to the present invention, a cooling temperature of the internal surface of a pipe welding portion is maintained by using cooling water or a spray device, and the temperature of the external surface of the pipe welding portion is raised up to 500-600 deg. C, wherein a heating temperature maintenance time is set to be within two hours. The temperatures of the internal surface and the external surface are heat treated to be 500-600 deg. C so as to re-arrange a residual stress distribution of the internal surface of the pipe such that resistivity with respect to a first order stress corrosion crack is improved and sensitization between stainless steels can be prevented.

Description

Technical Field [0001] The present invention relates to a method for reducing residual stress in a welded portion using a post heat treatment,

The inner surface of the piping weld portion of the present invention is maintained at a cooling temperature by using a cooling water or a spraying device and the outer surface of the piping weld portion is heated to a temperature of 500 to 600 DEG C while the heating temperature is maintained for 2 hours or less, DELTA T) is heat treated so as to have a temperature of 500 to 600 DEG C to rearrange the residual stress distribution on the inner surface of the pipe to improve the resistance to primary water stress corrosion cracking (PWSCC) The present invention relates to a method for reducing residual stress in a welded portion of a welded portion.

There are many heterogeneous junctions composed of carbon steel - stainless steel (Ni alloy welding) before the welding.

These heterogeneous joints are known to be vulnerable 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 aquatic environment.

In the case of carbon steel, post-weld heat treatment is performed to remove the residual stress, but in the case of stainless steel, post-heat treatment is not performed due to the problem of sensitization of the material in all kinds of welds and dissimilar welds.

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

Korean Patent Laid-Open Publication No. 10-2011-0074136 discloses a technical structure for a post-heat treatment method for a high carbon steel welded portion, but this is not related to a dissimilar metal welded portion including stainless steel.

In contrast, the present invention is characterized in that the inner surface is cooled and the outer surface is heated so that the temperature difference (T) between the inner surface and the outer surface is subjected to a heat treatment within a range of 500 to 600 ° C for 2 hours or less to improve the residual stress distribution on the inner surface of the pipe, There is an increased effect of improving the resistance to primary stress corrosion cracking (PWSCC) of the material through microstructure improvement of the material.

Korean Patent Laid-Open Publication No. 10-2015-0078802 discloses a technical structure of a post heat treatment method for preventing intergranular cracking of an austenitic heat resistant material. In contrast to this, the present invention is characterized in that the inner surface is cooled and the outer surface is heated It is possible to improve the residual stress distribution on the inner surface of the pipe by performing heat treatment within the temperature range of 500 ° C to 600 ° C between the inner and outer surfaces (ΔT), and to improve the microstructure of the welded material by heat treatment. There is an elevated effect that can improve the resistance to cracking.

A problem to be solved by the present invention is to improve the residual stress distribution of a heterojunction where carbon steel and stainless steel are bonded to each other to improve the resistance to PWSCC (primary water stress corrosion cracking), and to improve the resistance of the heterogeneous joint And to provide a post heat treatment method.

Another problem to be solved by the present invention is to heat the outside of the heterojunction where carbon steel and stainless steel are bonded to each other by an induction heating device or a band heater, Which is capable of improving the resistance to primary stress corrosion cracking and improving the microstructure of the material.

The post-heat treatment method for improving the PWSCC resistance of the material by improving the residual stress distribution on the inner surface of the pipe and improving the microstructure of the weld material by the heat treatment, A step of cooling the inner surface of the piping weld to maintain a temperature difference between the outer surface and the outer surface of the pipe; And heat treating the inner surface and the outer surface so that the temperature difference (T) is between 500 ° C and 600 ° C. The present invention also provides a heat treatment method for improving the resistance to stress corrosion cracking (PWSCC).

According to another aspect of the present invention, there is provided a post-heat treatment method for a heterogeneous welded portion, further comprising heating the outer surface of the dissimilar welded portion to a temperature set between 500 ° C and 600 ° C for 2 hours or less have.

According to another aspect of the present invention, there is provided a method for heat treatment of a heterogeneous welded portion, which is configured to heat a dissimilar welding portion by an induction heating device or a vant heater device capable of rapid heating.

The present invention has an advantageous effect of improving the resistance to primary water stress corrosion cracking and preventing the sensitivity to the stainless steel by rearranging the residual stress distribution on the inner surface of the pipe by heat treatment of the welded portion through heat treatment after welding.

In addition, the present invention has an advantageous effect in that the stainless steel is not susceptible to cracking from the viewpoint of cracking, and exhibits high resistance to primary water stress corrosion cracking before the post heat treatment.

FIG. 1 shows the heating time and temperature for the post-heat treatment of the heterogeneous weld for reducing the primary stress corrosion cracking in the different welds for improving the microstructure of the material.

Hereinafter, the present invention will be described in detail.

The present invention relates to a method of manufacturing a pipe joint, comprising the steps of: heating an outer surface of a pipe welded to a temperature of 500 to 600 占 폚; maintaining a normal temperature by using cooling water or sprinkling device on the inner surface of the pipe weld; Keeping the temperature difference (DELTA T) between 500 DEG C and 600 DEG C within 2 hours.

The post weld heat treatment after the post heat treatment has an effect of improving the residual stress distribution and greatly improving the resistance of the material to primary stress corrosion cracking through improvement of the microstructure of the welded material by the heat treatment.

Since the heat treatment is performed at a temperature of 600 ° C or less applied to the outside of the bonding portion of the carbon steel and the stainless steel of the heterojunction, the sensitivity of the stainless steel does not occur.

A specific embodiment of the present invention will be described.

<Examples>

A specific embodiment of the present invention will be described with reference to the drawings.

There are many heterogeneous junctions composed of carbon steel - stainless steel (Ni alloy welding) before the welding.

These heterogeneous joints are known to be vulnerable to primary water stress corrosion cracking (PWSCC).

In the case of carbon steel, post-weld heat treatment is performed to remove the residual stress, but in the case of stainless steel, post-heat treatment is not performed due to the problem of sensitization of the material in all kinds of welds and dissimilar welds.

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

The present invention eliminates the residual stress of the carbon steel of the dissimilar welds through post-heat treatment of the dissimilar welds in consideration of the problems that have been exposed in the past, and to solve the problem of material sensitization of the stainless steel, the heat treatment temperature applied to the outer side of the weld during the post- .

The post-annealing temperature according to the present invention was performed at a temperature of 600 ° C or lower, so that sensitization did not occur.

The technical construction according to the present invention will be described.

And heating the outer surface of the dissimilar welded portion of the pipe to a temperature set between 500 캜 and 600 캜.

Maintaining the outer surface of the dissimilar welded portion of the pipe at a temperature set between 500 deg. C and 600 deg. C for a set time.

While maintaining the outer surface of the dissimilar welding portion at a temperature of 500 ° C to 600 ° C, the inner surface of the weld portion is sprinkled with cooling water or sprinkled using a water sprinkling device to maintain the cooling (normal temperature) state.

Maintaining the temperature difference (DELTA T) between the inner surface and the outer surface for a time set at a temperature of 500 DEG C to 600 DEG C for post-heat treatment.

The set time is preferably within 2 hours.

More specifically, the time for applying heat is preferably between 1 hour and 2 hours.

The heat treatment after the dissimilar welding according to the present invention is performed by heating the outer surface with a heating device and sprinkling cooling water on the inner surface or sprinkling using a sprinkler to cool the outer surface and the inner surface to maintain the temperature difference T between 500 ° C and 600 ° C .

As described above, the outer surface of the dissimilar welding portion is heated by using a heating device including a conventional induction heating device or a band heater capable of rapid heating to maintain a set temperature between 500 ° C and 600 ° C, A precipitate that increases the resistance to primary water stress corrosion cracking is generated in the microstructure of the dissimilar welding portion, and at the same time, an effect of preventing cracks is generated.

The cooling temperature in the step of cooling (inner temperature) the inner surface of the heterojunction is preferably about 0 to 40 캜, but it may be deviated.

As a result of the inspection after heat treatment, no sensitization of stainless steel occurred.

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

And heating the outer surface of the dissimilar welded portion of the pipe to a predetermined temperature between 500 ° C and 600 ° C by using a heating device. The outer surface of the dissimilar welded portion of the pipe is maintained at a set temperature between 500 ° C and 600 ° C .

And cooling the inner surface of the welded portion with the cooling device while maintaining the outer surface of the dissimilar welded portion at a predetermined temperature to maintain the set temperature.

The post-heat treatment method of the present invention includes a step of heating the outer surface of the dissimilar weld to a predetermined temperature between 500 ° C and 600 ° C, and maintaining the temperature between 1 hour and 2 hours.

The heat treatment method after the dissimilar welding portion may further include maintaining the outer surface of the dissimilar welded portion at a temperature set between 500 ° C and 600 ° C by using a heating device while maintaining a normal temperature state on the inner surface using a cooling water or a sprinkler .

Post weld heat treatment to improve the residual stress distribution involves maintaining the temperature difference ([Delta] T) between the inner and outer surfaces between 500 and 600 [deg.] C for between 1 and 2 hours, which corresponds to an important technical configuration do.

The post-heat treatment method according to the present invention can be configured to provide a shielding ring at the interface of the heterojunction and to heat treat the carbon steel part and the stainless steel part at different heat treatment temperatures for efficient treatment.

The shielding ring is provided at the interface of the heterojunction and the carbon steel portion is supplied with high energy by using an induction heating device and the stainless steel portion which is sensitive to heat is supplied with energy lower than that of carbon steel.

In the case of the induction heating apparatus, the frequency, the amplitude and / or the pulse width of the signal supplied to the coils provided for each heating based on the shield ring can be varied to supply different energies.

Experimental results show that the durability of welded joints increased by more than 35% when the residual stresses were reduced by post - heat treatment.

According to the present invention, there is provided a method of manufacturing a steel pipe, comprising the steps of: maintaining the inner surface of a pipe welded by cooling water or using a sprinkling device; maintaining the outer surface of the welded pipe at a temperature of 500 to 600 ° C; And a step of heat treating the inner surface and the outer surface at a temperature between 500 ° C. and 600 ° C. by improving the residual stress distribution on the inner surface of the pipe and improving the microstructure of the welded material by the heat treatment, It is possible to improve the residual stress by providing a heat treatment method for improving the resistance to stress corrosion cracking in the primary number of heterogeneous junctions of nuclear power plants which can improve the resistance to cracks.

Claims (5)

A method for post-heat treatment of a heterogeneous weld for reducing stress corrosion cracking in a primary weld of a different weld for repositioning the residual stress distribution on the inner surface of the pipe to improve the resistance of the PWSCC,
Heating the outer surface of the dissimilar welded portion of the pipe to a set temperature between 500 캜 and 600 캜 using a heating device;
Cooling the inner surface of the welded portion with the cooling device while maintaining the outer surface of the dissimilar welded portion at a predetermined temperature to maintain the set temperature; And
Holding the temperature difference (DELTA T) between the outer surface and the inner surface of the dissimilar welded portion of the pipe for a predetermined time between 500 deg. C and 600 deg. C for a set time. The method according to claim 1,
The heat treatment method after the dissimilar welding portion is characterized in that the temperature difference (DELTA T) between the outer surface and the inner surface of the dissimilar welding portion is maintained at a constant temperature between 500 DEG C and 600 DEG C, and the time is maintained for a predetermined time between 1 and 2 hours Heat treatment method after dissimilar welding. The method according to claim 1,
The heat treatment method after the dissimilar welding portion is characterized in that the outer surface of the dissimilar welding portion is maintained at a temperature set between 500 ° C. and 600 ° C. by using a heating device while the inner surface is sprinkled with cooling water or sprinkled by a water spraying device, Heat treatment method after dissimilar welding. 4. The method according to any one of claims 1 to 3,
Wherein the heating device is an induction heating device or a vant heater heating device capable of rapid heating. 4. The method according to any one of claims 1 to 3,
The heat treatment method after the dissimilar welding part is characterized in that a shielding ring is provided at the interface of the heterojunction, the carbon steel part supplies high energy by using the induction heating device, and the stainless steel part which is sensitive to heat supplies energy lower than carbon steel. Post heat treatment method.

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