JPH07284925A - Method for butt-welding tube materials - Google Patents

Method for butt-welding tube materials

Info

Publication number
JPH07284925A
JPH07284925A JP6080371A JP8037194A JPH07284925A JP H07284925 A JPH07284925 A JP H07284925A JP 6080371 A JP6080371 A JP 6080371A JP 8037194 A JP8037194 A JP 8037194A JP H07284925 A JPH07284925 A JP H07284925A
Authority
JP
Japan
Prior art keywords
pipe materials
welding
pipe
cutting
circumferential direction
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
JP6080371A
Other languages
Japanese (ja)
Inventor
Atsushi Tanaka
淳 田中
Toru Ozaki
徹 小崎
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
IHI Corp
Original Assignee
IHI Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by IHI Corp filed Critical IHI Corp
Priority to JP6080371A priority Critical patent/JPH07284925A/en
Publication of JPH07284925A publication Critical patent/JPH07284925A/en
Pending legal-status Critical Current

Links

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02EREDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
    • Y02E30/00Energy generation of nuclear origin
    • Y02E30/30Nuclear fission reactors

Landscapes

  • Butt Welding And Welding Of Specific Article (AREA)

Abstract

PURPOSE:To prevent the stress corrosion cracking caused by the remained stress of welding. CONSTITUTION:The parts 7, 8 to be cut are before and formed at the inside part at least near the joining end part of two tube materials 1, 2 to be mutually joined with a butt-welding and chamfer parts 9, 10 extended in the peripheral directions are formed at the joining ends of both tube materials 1, 2. The welding work is performed along the peripheral directions of both tube materials 1, 2 from the outside of both tube materials 1, 2 to the welding beveling 11 constituted by facing the chamfer parts 9, 10 of the joining ends to form a welded seam 12 for joining both tube materials 1, 2. After that, the chips 7, 8 and the welded seam part 12a between chips 7, 8 are cut. By this method, the residual stress is reduced and the stress corrosion cracking can be prevented.

Description

【発明の詳細な説明】Detailed Description of the Invention

【0001】[0001]

【産業上の利用分野】本発明は、管材の突合せ溶接方法
に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a butt welding method for pipe materials.

【0002】[0002]

【従来の技術】2つの管材を相互に接続する一手段とし
て突合せ溶接が実施されている。
2. Description of the Related Art Butt welding is carried out as one means for connecting two pipe members to each other.

【0003】図9は管材の突合せ溶接寸法の一例を示
し、接続すべき2つの管材1,2のそれぞれの接続端部
に周方向へ延びる面取り部3,4を成形し、該面取り部
3,4が所定の間隔を置いて対峙するように前記の2つ
の管材1,2を配置し、両面取り部3,4によって構成
される溶接開先5に対して両管材1,2の外部から該両
管材1,2の周方向に沿って溶接作業を実施している。
FIG. 9 shows an example of butt-welding dimensions for pipe materials, in which chamfered portions 3 and 4 extending in the circumferential direction are formed at the respective connection ends of the two pipe materials 1 and 2 to be connected. The two pipe materials 1 and 2 are arranged so that they face each other at a predetermined distance, and the welding groove 5 formed by the double-sided chamfers 3 and 4 is connected to the welding pipe 5 from outside the pipe materials 1 and 2. Welding work is performed along the circumferential direction of both pipe materials 1, 2.

【0004】その際、該管材1,2の間に溶接継手6が
形成されることにより管材1,2の肉厚が管径に対して
比較的厚い場合には、図10のSにより示されるような
分布状態の残留応力が生じ、また薄い場合には、図11
のSにより示されるような分布状態の残留応力が生じ
る。
At this time, when the welded joint 6 is formed between the pipe members 1 and 2, so that the wall thicknesses of the pipe members 1 and 2 are relatively large with respect to the pipe diameter, it is indicated by S in FIG. When residual stress with such a distribution state occurs, and when it is thin,
The residual stress in the distributed state as shown by S in FIG.

【0005】なお、図10、11の1aは管材1,2の
内面を示し、1bは管材1,2の外面を示している。
10 and 11, reference numeral 1a indicates the inner surface of the pipe members 1 and 2, and 1b indicates the outer surface of the pipe members 1 and 2.

【0006】[0006]

【発明が解決しようとする課題】しかしながら、前述の
管材の突合せ溶接方法では、上述した残留応力が過大で
あると両管材1,2の溶接継手6の近傍に残留応力に起
因する割れ(応力腐食割れ)が発生することがあるとい
う問題があった。
However, in the above-mentioned butt welding method for pipe materials, if the above-mentioned residual stress is excessive, cracks (stress corrosion) due to the residual stress will occur in the vicinity of the welded joints 6 of both pipe materials 1, 2. There is a problem that cracks may occur.

【0007】[0007]

【研究結果に基づく知見】上記の問題を解決するために
発明者等は鋭意研究を行なった結果、突合せ溶接によっ
て相互に接続した2本の管材の内側部、或いは外側部の
少なくとも一方を管材周方向へ略均等に切削すると、残
留応力が低減するという知見を得るに至った。
[Knowledge based on research results] As a result of intensive studies by the inventors in order to solve the above-mentioned problems, as a result, at least one of the inner part and the outer part of two pipes connected to each other by butt welding is surrounded by the pipe perimeter. We have come to the knowledge that residual stress is reduced when cutting is performed substantially evenly in the direction.

【0008】[0008]

【発明の目的】本発明は、前述の知見をもとにして溶接
継手部に生じる残留応力を低減させ得る管材の継手方法
を提供することを目的としてなしたものである。
SUMMARY OF THE INVENTION It is an object of the present invention to provide a pipe jointing method capable of reducing the residual stress generated in a welded joint based on the above findings.

【0009】[0009]

【課題を解決するための手段】第1の発明は、突合せ溶
接によって相互に接続すべき2つの管材1,2の少なく
とも接続端付近の内側部に削り代7,8を予め形成して
おき、両管材1,2のそれぞれの接続端に周方向へ延び
る面取り部9,10を成形し、該接続端の面取り部9,
10を対峙させることにより構成される溶接開先11に
対して両管材1,2の外部から該両管材1,2の周方向
に沿って溶接作業を実施し両管材1,2を接続する溶接
継手12を形成させたのち、前記の削り代7,8と該削
り代7,8間の溶接継手部分12aとを切削することを
特徴とする管材の突合せ溶接方法としている。
According to a first aspect of the present invention, cutting allowances 7 and 8 are formed in advance on at least the inner portions of the two pipe members 1 and 2 to be connected to each other by butt welding at least near the connecting ends. Chamfered portions 9, 10 extending in the circumferential direction are formed at the respective connection ends of the two pipe materials 1, 2, and the chamfered portions 9, 10 of the connection ends are formed.
Welding for connecting the pipe materials 1 and 2 by performing welding work from the outside of the pipe materials 1 and 2 to the welding groove 11 formed by facing the pipe materials 1 and 2 along the circumferential direction of the pipe materials 1 and 2. After the joint 12 is formed, the shaving allowances 7, 8 and the welded joint portion 12a between the shaving allowances 7, 8 are cut to provide a butt welding method for pipe materials.

【0010】第2の発明は、突合せ溶接によって相互に
接続すべき2つの管材1,2の少なくとも接続端付近の
外側部に削り代13,14を予め形成しておき、両管材
1,2のそれぞれの接続端に周方向へ延びる面取り部1
5,16を成形し、該接続端の面取り部15,16を対
峙させることにより構成される溶接開先17に対して両
管材1,2の外部から該両管材1,2の周方向に沿って
溶接作業を実施し両管材1,2を接続する溶接継手18
を形成させたのち、前記の削り代13,14と該削り代
13,14間の溶接継手部分18aとを切削することを
特徴とする管材の突合せ溶接方法としている。
In the second aspect of the invention, the cutting allowances 13 and 14 are formed in advance on at least the outer portions near the connecting ends of the two pipe materials 1 and 2 to be connected to each other by butt welding. A chamfer 1 extending in the circumferential direction at each connection end
5, 16 are formed, and the chamfered portions 15, 16 of the connecting ends are opposed to each other with respect to the welding groove 17 from the outside of the pipe materials 1, 2 along the circumferential direction of the pipe materials 1, 2. Welded joint 18 for connecting both pipe materials 1 and 2 by performing welding work by
Is formed, and then the cutting margins 13 and 14 and the weld joint portion 18a between the cutting margins 13 and 14 are cut to provide a butt welding method for pipe materials.

【0011】第3の発明は、突合せ溶接によって相互に
接続すべき2つの管材19,20に所定値よりも肉厚の
厚いものを用い、両管材19,20のそれぞれの接続端
に周方向へ延びる面取り部21,22を成形し、該接続
端の面取り部21,22を対峙させることにより構成さ
れる溶接開先23に対して両管材19,20の外部から
該両管材19,20の周方向に沿って溶接作業を実施し
両管材19,20を接続する溶接継手24を形成させた
のち、両管材19,20を所定寸法に切削することを特
徴とする管材の突合せ溶接方法としている。
In a third aspect of the invention, two pipes 19, 20 to be connected to each other by butt welding are made thicker than a predetermined value, and the pipes 19, 20 are circumferentially connected to their respective connection ends. From the outside of both pipes 19, 20 to the welding groove 23 formed by forming the extended chamfers 21, 22 and confronting the chamfers 21, 22 of the connection ends, the circumference of the pipes 19, 20 is surrounded. A butt welding method for pipe materials is characterized in that welding work is performed along the direction to form a welded joint 24 that connects the pipe materials 19 and 20, and then the pipe materials 19 and 20 are cut to a predetermined size.

【0012】第4の発明は、突合せ溶接によって相互に
接続すべき2つの管材1,2の少なくとも接続端付近の
内側部に溶接肉盛によって削り代25,26を予め形成
し該削り代25,26に対して焼鈍処理を施したのち、
両管材1,2のそれぞれの接続端に周方向へ延びる面取
り部9,10を成形し、該接続端の面取り部9,10を
対峙させることにより構成される溶接開先11に対して
両管材1,2の外部から該両管材1,2の周方向に沿っ
て溶接作業を実施し両管材1,2を接続する溶接継手1
2を形成させたのち、前記の削り代25,26と該削り
代25,26間の溶接継手部分12aとを切削すること
を特徴とする管材の突合せ溶接方法としている。
In a fourth aspect of the present invention, the cutting allowances 25, 26 are formed in advance by welding overlay on at least the inner portions of the two pipe materials 1, 2 to be connected to each other by butt welding in the vicinity of the connecting ends, and the cutting allowances 25, 26 are formed. After performing annealing treatment on 26,
Chamfered portions 9 and 10 extending in the circumferential direction are formed at the respective connection ends of the two pipe materials 1 and 2, and the two pipe materials are welded to the welding groove 11 formed by facing the chamfered parts 9 and 10 of the connection ends. Welding joint 1 for connecting both pipe materials 1 and 2 by performing welding work from the outside of the pipe materials 1 and 2 along the circumferential direction of the pipe materials 1 and 2.
2 is formed, and then the cutting margins 25, 26 and the welded joint portion 12a between the cutting margins 25, 26 are cut to provide a butt welding method for pipe materials.

【0013】第5の発明は、突合せ溶接によって相互に
接続すべき2つの管材1,2の少なくとも接続端付近の
外側部に溶接肉盛によって削り代27,28を予め形成
し該削り代27,28に対して焼鈍処理を施したのち、
両管材1,2のそれぞれの接続端に周方向へ延びる面取
り部15,16を成形し、該接続端の面取り部15,1
6を対峙させることにより構成される溶接開先17に対
して両管材1,2の外部から該両管材1,2の周方向に
沿って溶接作業を実施し両管材1,2を接続する溶接継
手18を形成させたのち、前記の削り代27,28と該
削り代27,28間の溶接継手部分18aとを切削する
ことを特徴とする管材の突合せ溶接方法としている。
In a fifth aspect of the present invention, the cutting margins 27, 28 are formed in advance by welding overlay on at least the outer portions of the two pipe materials 1, 2 to be connected to each other by butt welding in the vicinity of the connecting ends, and the cutting margins 27, 28 are formed. After annealing 28,
Chamfered portions 15, 16 extending in the circumferential direction are formed at the respective connection ends of the two pipe materials 1, 2, and the chamfered portions 15, 1 of the connection ends are formed.
Welding for connecting the pipe materials 1 and 2 by performing welding work from the outside of the pipe materials 1 and 2 along the circumferential direction of the pipe materials 1 and 2 to the welding groove 17 formed by facing each other. After forming the joint 18, the shaving allowances 27, 28 and the weld joint portion 18a between the shaving allowances 27, 28 are cut to provide a butt welding method for pipe materials.

【0014】[0014]

【作用】従って、第1の発明では、溶接作業を実施した
のち管材1,2の内側に予め形成した削り代7,8と該
削り代7,8間の溶接継手部分12aとを切削すると溶
接による残留応力が低減される。
Therefore, according to the first aspect of the present invention, after the welding work is performed, the cutting margins 7 and 8 formed in advance inside the pipe members 1 and 2 and the weld joint portion 12a between the cutting margins 7 and 8 are welded. The residual stress due to is reduced.

【0015】第2の発明では、溶接作業を実施したのち
管材1,2の外側に予め形成した削り代13,14と該
削り代13,14間の溶接継手部分18aとを切削する
と溶接による残留応力が低減される。
In the second aspect of the present invention, after the welding work is carried out and the cutting margins 13 and 14 formed in advance on the outside of the pipe members 1 and 2 and the weld joint portion 18a between the cutting margins 13 and 14 are cut, the residue remains due to welding. Stress is reduced.

【0016】第3の発明では、溶接作業を実施したのち
管材19,20を所定径に切削すると溶接による残留応
力が低減される。
In the third aspect of the present invention, the residual stress due to welding is reduced by cutting the pipes 19, 20 to a predetermined diameter after carrying out the welding work.

【0017】第4の発明では、溶接作業を実施したのち
管材1,2の内側に溶接肉盛後焼鈍して予め形成した削
り代25,26と該削り代25,26間の溶接継手部分
12aとを切削すると溶接による残留応力が低減され
る。
In the fourth aspect of the present invention, after the welding work is performed, the welding allowances 25 and 26 preliminarily formed by welding and overlaying the inside of the pipe materials 1 and 2 and thereafter, and the weld joint portion 12a between the cutting allowances 25 and 26. Cutting and reduces the residual stress due to welding.

【0018】第5の発明では、溶接作業を実施したのち
管材1,2の外側に溶接肉盛後焼鈍して予め形成した削
り代27,28と該削り代27,28間の溶接継手部分
18aとを切削すると溶接による残留応力が低減され
る。
In the fifth aspect of the present invention, after welding work is carried out, the weld margins 27, 28 formed beforehand by welding overlaying and annealing on the outside of the pipe materials 1, 2 and the weld joint portion 18a between the trim allowances 27, 28. Cutting and reduces the residual stress due to welding.

【0019】[0019]

【実施例】以下、本発明の実施例を図面を参照しつつ説
明する。
Embodiments of the present invention will be described below with reference to the drawings.

【0020】図1は第1の発明の管材の突合せ溶接方法
の一実施例の概念図であり、図中、図9と同じものには
同じ符号を付してある。
FIG. 1 is a conceptual view of an embodiment of the butt welding method for pipe materials of the first invention, in which the same parts as those in FIG. 9 are designated by the same reference numerals.

【0021】1,2は突合せ溶接によって相互に接続す
べき2つの管材であり、該両管材1,2の各接続端付近
の内側部にそれぞれ削り代7,8を予め形成しておき、
両管材1,2の各々の接続端に周方向へ延びる面取り部
9,10を成形する。
Reference numerals 1 and 2 denote two pipe members to be connected to each other by butt welding, and cutting margins 7 and 8 are preliminarily formed in the inner portions of the both pipe members 1 and 2 in the vicinity of respective connecting ends.
Chamfered portions 9 and 10 extending in the circumferential direction are formed at the respective connection ends of the two pipe materials 1 and 2.

【0022】そして、前記の接続端の面取り部9,10
が所定の間隔を置いて対峙するように前記の両管材1,
2を配置し、対峙させた両面取り部9,10により構成
される溶接開先11に対して両管材1,2の外部から該
両管材1,2の周方向に沿って溶接作業を実施して両管
材1,2を接続する溶接継手12を形成させる。
Then, the chamfered portions 9 and 10 of the above-mentioned connection ends.
So that they face each other at a predetermined interval.
2 is arranged and welding work is performed from the outside of both pipe materials 1 and 2 along the circumferential direction of both pipe materials 1 and 2 to a welding groove 11 constituted by facing chamfered portions 9 and 10. To form a welded joint 12 that connects the two pipe materials 1 and 2.

【0023】その後、前記の削り代7,8と該削り代
7,8の間の溶接継手部分12aとを切削し、両管材
1,2の内面を平滑に仕上げる。
After that, the cutting margins 7 and 8 and the welded joint portion 12a between the cutting margins 7 and 8 are cut to finish the inner surfaces of the pipe materials 1 and 2 to be smooth.

【0024】前記によれば、溶接作業を実施したのち
に、管材1,2の内側に予め形成した削り代7,8と該
削り代7,8の間の溶接継手部分12aとを切削するよ
うにしたので、溶接による残留応力が低減され、応力腐
食割れの発生を防止できる。
According to the above, after performing the welding work, the cutting margins 7 and 8 formed in advance inside the pipe members 1 and 2 and the weld joint portion 12a between the cutting margins 7 and 8 are cut. Therefore, the residual stress due to welding is reduced, and the occurrence of stress corrosion cracking can be prevented.

【0025】また、管材1,2の内側に削り代7,8を
形成したので、該削り代7,8をボーリングなどの手段
によって切削することが可能となり溶接作業後に移動さ
せることができない管材に容易に適用し得る。
Further, since the cutting allowances 7 and 8 are formed inside the pipe materials 1 and 2, the cutting allowances 7 and 8 can be cut by means such as boring, and the pipe materials cannot be moved after the welding operation. Easy to apply.

【0026】図2は第2の発明の管材の突合せ溶接方法
の一実施例の概念図であり、図中、図1と同じものには
同じ符号を付してある。
FIG. 2 is a conceptual diagram of an embodiment of the butt welding method for pipe materials of the second invention, in which the same parts as those in FIG. 1 are designated by the same reference numerals.

【0027】1,2は突合せ溶接によって相互に接続す
べき2つの管材であり、該両管材1,2の各接続端付近
の外側部にそれぞれ削り代13,14を予め形成してお
き、両管材1,2の各々の接続端に周方向へ延びる面取
り部15,16を成形する。
Reference numerals 1 and 2 denote two pipe members to be connected to each other by butt welding. Cutting margins 13 and 14 are formed in advance on the outer portions of the two pipe members 1 and 2 near the respective connection ends. Chamfered portions 15 and 16 extending in the circumferential direction are formed at the respective connection ends of the pipe materials 1 and 2.

【0028】そして、前記の接続端の面取り部15,1
6が所定の間隔を置いて対峙するように前記の両管材
1,2を配置し、対峙させた両面取り部15,16によ
り構成される溶接開先17に対して両管材1,2の外部
から該両管材1,2の周方向に沿って溶接作業を実施し
て両管材1,2を接続する溶接継手18を形成させる。
Then, the chamfered portions 15 and 1 at the above-mentioned connection ends.
The two pipe materials 1 and 2 are arranged so that they face each other at a predetermined interval, and the pipe materials 1 and 2 are external to the welding groove 17 formed by the facing double-sided chamfers 15 and 16. Then, a welding operation is performed along the circumferential direction of the pipe materials 1 and 2 to form a welded joint 18 connecting the pipe materials 1 and 2.

【0029】その後、前記の削り代13,14と該削り
代13,14の間の溶接継手部分18aとを切削し、両
管材1,2の外面を平滑に仕上げる。
After that, the cutting margins 13 and 14 and the welded joint portion 18a between the cutting margins 13 and 14 are cut to finish the outer surfaces of the pipe materials 1 and 2 smooth.

【0030】前記によれば、溶接作業を実施したのち
に、管材1,2の外側に予め形成した削り代13,14
と該削り代13,14の間の溶接継手部分18aとを切
削するようにしたので、溶接による残留応力が低減さ
れ、応力腐食割れの発生を防止できる。
According to the above, after performing the welding operation, the cutting allowances 13 and 14 formed in advance on the outer sides of the pipe materials 1 and 14, respectively.
Since the welding joint portion 18a between the cutting margins 13 and 14 is cut, the residual stress due to welding is reduced and the occurrence of stress corrosion cracking can be prevented.

【0031】また、管材1,2の外側に削り代13,1
4を形成したので、該削り代13,14を旋盤加工など
の手段によって切削することが可能であり溶接作業後に
移動させることができる管材に適用し得る。
Further, the cutting allowances 13, 1 are provided on the outer sides of the pipe materials 1, 2.
Since No. 4 is formed, the cutting allowances 13 and 14 can be cut by means such as lathe processing and can be applied to a pipe material that can be moved after welding work.

【0032】図3は第3の発明の管材の突合せ溶接方法
の一実施例の概念図である。
FIG. 3 is a conceptual diagram of an embodiment of the butt welding method for pipe materials of the third invention.

【0033】本実施例では、突合せ溶接によって相互に
接続すべき2つの管材19,20として、完成時に必要
な管の肉厚よりも厚い肉厚を有するものを用いる。
In this embodiment, as the two pipe members 19 and 20 to be connected to each other by butt welding, those having a wall thickness larger than the wall thickness of the pipe required at the time of completion are used.

【0034】両管材19,20の各々の接続端に周方向
へ延びる面取り部21,22を成形する。
Chamfered portions 21 and 22 extending in the circumferential direction are formed at the connection ends of the two pipe members 19 and 20, respectively.

【0035】そして、前記の接続端の面取り部21,2
2が所定の間隔を置いて対峙するように前記の両管材1
9,20を配置し、対峙させた両面取り部21,22に
より構成される溶接開先23に対して両管材19,20
の外部から該両管材19,20の周方向に沿って溶接作
業を実施して両管材19,20を接続する溶接継手24
を形成させる。
Then, the chamfered portions 21 and 2 of the above-mentioned connecting ends.
Both pipe materials 1 so that 2 face each other at a predetermined interval.
Both pipe materials 19, 20 are attached to the welding groove 23 constituted by the double-sided chamfered portions 21, 22 in which 9, 20 are arranged.
A welded joint 24 for connecting both pipes 19 and 20 by performing welding work from the outside of the pipes along the circumferential direction of the pipes 19 and 20.
To form.

【0036】その後、必要な所期の管径に応じて両管材
19,20の内面を平滑に仕上げる。
After that, the inner surfaces of both the pipe members 19 and 20 are finished to be smooth according to the required desired pipe diameter.

【0037】なお、目的の管径によっては両管材19,
20の外面を平滑に仕上げてもよい。
Depending on the target pipe diameter, both pipe materials 19,
The outer surface of 20 may be finished smooth.

【0038】前記によれば、溶接作業を実施したのち
に、管材19,20の内面を切削するようにしたので、
溶接による残留応力が低減され、応力腐食割れの発生を
防止できる。
According to the above, after the welding work is performed, the inner surfaces of the pipe members 19 and 20 are cut.
Residual stress due to welding is reduced, and the occurrence of stress corrosion cracking can be prevented.

【0039】また、削り代が管材19,20本体そのも
のであり同質であるので、2つの管材19,20の溶接
継手部の近傍に生じる残留応力は両者が異質のものに比
べてさらに低減する。
Further, since the shaving allowance is the same as that of the pipe members 19 and 20 itself, the residual stress generated in the vicinity of the welded joint portion of the two pipe members 19 and 20 is further reduced as compared with the case where the two members are different.

【0040】図4は第4の発明の管材の突合せ溶接方法
の一実施例の概念図であり、図中、図1と同じものには
同じ符号を付してある。
FIG. 4 is a conceptual view of an embodiment of the butt welding method for pipe materials of the fourth invention, in which the same parts as those in FIG. 1 are designated by the same reference numerals.

【0041】1,2は突合せ溶接によって相互に接続す
べき2つの管材であり、該両管材1,2の各接続端付近
の内側部に溶接肉盛によって削り代25,26を予め形
成し、該削り代25,26に対して焼鈍処理を施したの
ち、両管材1,2の各々の接続端に周方向へ延びる面取
り部9,10を成形する。
Reference numerals 1 and 2 denote two pipe members which are to be connected to each other by butt welding, and the cutting margins 25 and 26 are preliminarily formed on the inner portions of the two pipe members 1 and 2 in the vicinity of respective connecting ends by welding overlay. After the shaving margins 25 and 26 are annealed, chamfered portions 9 and 10 extending in the circumferential direction are formed at the connecting ends of the two pipe materials 1 and 2.

【0042】そして、前記の接続端の面取り部9,10
が所定の間隔を置いて対峙するように前記の両管材1,
2を配置し、対峙させた両面取り部9,10により構成
される溶接開先11に対して両管材1,2の外部から該
両管材1,2の周方向に沿って溶接作業を実施して両管
材1,2を接続する溶接継手12を形成させる。
Then, the chamfered portions 9 and 10 at the above-mentioned connection ends.
So that they face each other at a predetermined interval.
2 is arranged and welding work is performed from the outside of both pipe materials 1 and 2 along the circumferential direction of both pipe materials 1 and 2 to a welding groove 11 constituted by facing chamfered portions 9 and 10. To form a welded joint 12 that connects the two pipe materials 1 and 2.

【0043】その後、前記の削り代25,26と該削り
代25,26の間の溶接継手部分12aとを切削し、両
管材1,2の外面を平滑に仕上げる。
After that, the cutting margins 25 and 26 and the welded joint portion 12a between the cutting margins 25 and 26 are cut to finish the outer surfaces of the pipe materials 1 and 2 smooth.

【0044】前記によれば、溶接作業を実施したのち
に、管材1,2の内側に予め形成した削り代25,26
と該削り代25,26の間の溶接継手部分12aとを切
削するようにしたので、溶接による残留応力が低減さ
れ、応力腐食割れの発生を防止できる。
According to the above, after performing the welding work, the cutting allowances 25, 26 previously formed inside the pipe materials 1, 2
Since the welding joint portion 12a between the cutting margins 25 and 26 is cut, the residual stress due to welding is reduced and the occurrence of stress corrosion cracking can be prevented.

【0045】また、削り代25,26を溶接肉盛によっ
て形成するので材料費の削減を図ることができる。
Further, since the cutting allowances 25 and 26 are formed by the weld overlay, the material cost can be reduced.

【0046】図5は第5の発明の管材の突合せ溶接方法
の一実施例の概念図であり、図中、図1と同じものには
同じ符号を付してある。
FIG. 5 is a conceptual diagram of an embodiment of the butt welding method for pipe materials of the fifth invention, in which the same parts as those in FIG. 1 are designated by the same reference numerals.

【0047】1,2は突合せ溶接によって相互に接続す
べき2つの管材であり、該両管材1,2の各接続端付近
の外側部に溶接肉盛によって削り代27,28を予め形
成し、該削り代27,28に対して焼鈍処理を施したの
ち、両管材1,2の各々の接続端に周方向へ延びる面取
り部15,16を成形する。
Reference numerals 1 and 2 denote two pipe members which are to be connected to each other by butt welding, and cutting margins 27 and 28 are preliminarily formed by welding build-up on the outer portions of the both pipe members 1 and 2 in the vicinity of respective connecting ends. After the shaving margins 27 and 28 are annealed, chamfered portions 15 and 16 extending in the circumferential direction are formed at the connection ends of the two pipe materials 1 and 2.

【0048】そして、前記の接続端の面取り部15,1
6が所定の間隔を置いて対峙するように前記の両管材
1,2を配置し、対峙させた両面取り部15,16によ
り構成される溶接開先17に対して両管材1,2の外部
から該両管材1,2の周方向に沿って溶接作業を実施し
て両管材1,2を接続する溶接継手18を形成させる。
Then, the chamfered portions 15 and 1 at the above-mentioned connection ends.
The two pipe materials 1 and 2 are arranged so that they face each other at a predetermined interval, and the pipe materials 1 and 2 are external to the welding groove 17 formed by the facing double-sided chamfers 15 and 16. Then, a welding operation is performed along the circumferential direction of the pipe materials 1 and 2 to form a welded joint 18 connecting the pipe materials 1 and 2.

【0049】その後、前記の削り代27,28と該削り
代27,28の間の溶接継手部分18aとを切削し、両
管材1,2の外面を平滑に仕上げる。
After that, the cutting margins 27 and 28 and the welded joint portion 18a between the cutting margins 27 and 28 are cut to finish the outer surfaces of the pipe materials 1 and 2 smooth.

【0050】前記によれば、溶接作業を実施したのち
に、管材1,2の内側に予め形成した削り代27,28
と該削り代27,28の間の溶接継手部分18aとを切
削するようにしたので、溶接による残留応力が低減さ
れ、応力腐食割れの発生を防止できる。
According to the above, after the welding work is carried out, the cutting allowances 27, 28 previously formed inside the pipe members 1, 2 are formed.
Since the welding joint portion 18a between the cutting margins 27 and 28 is cut, the residual stress due to welding is reduced and the occurrence of stress corrosion cracking can be prevented.

【0051】また、削り代27,28を溶接肉盛によっ
て形成するので材料費の削減を図ることができる。
Further, since the cutting allowances 27 and 28 are formed by weld overlay, the material cost can be reduced.

【0052】なお、図6は、前述の図1〜図5に示した
管材の突合せ溶接方法によって低減される残留応力の減
少傾向を表す応力線図であり、図中、1aは管材1,
2、19,20の内面、1bは管材1,2、19,20
の外面、S1は削り代を切削する以前の残留応力、S2
は削り代を切削したあとの残留応力を示す。
FIG. 6 is a stress diagram showing the decreasing tendency of the residual stress which is reduced by the butt welding method of the pipe materials shown in FIGS.
Inner surfaces of 2, 19, 20 and 1b are pipe materials 1, 2, 19, 20
, S1 is the residual stress before cutting the cutting allowance, S2
Indicates the residual stress after cutting the cutting allowance.

【0053】図7は、本発明の管材の突合せ溶接方法を
原子炉圧力容器の下鏡板部31に対する制御棒駆動機構
のスタブチューブ29の取付け構造に適用した一実施例
である。
FIG. 7 shows an embodiment in which the pipe butt welding method of the present invention is applied to a mounting structure of a stub tube 29 of a control rod drive mechanism to a lower end plate portion 31 of a reactor pressure vessel.

【0054】完成時のスタブチューブ29として必要な
肉厚よりも厚く内面側を削り代30となし得る肉厚を有
し、且つスタブチューブ29を取り付けるために下鏡板
部31の所定位置に穿設されている貫通孔32と同じ内
径を有するスタブチューブ29の素材の接続端を前記貫
通孔32の穿設部位の下鏡板部31の内面に対応する所
定形状に成形し、該接続端に周方向へ延びる面取り部3
3を形成する。
The stub tube 29 at the time of completion has a thickness larger than that required for the stub tube 29, and the inner surface has a thickness that can be used as a cutting allowance 30, and is drilled at a predetermined position of the lower end plate portion 31 for mounting the stub tube 29. The connecting end of the material of the stub tube 29 having the same inner diameter as the through hole 32 is formed into a predetermined shape corresponding to the inner surface of the lower end plate 31 of the through hole 32, and the connecting end is circumferentially formed. Chamfer 3 extending to
3 is formed.

【0055】前記貫通孔32が穿設されている下鏡板部
31の内面に対して前記のスタブチューブ29の素材の
接続端面取り部33が所定の間隔を置いて対峙するよう
に該スタブチューブ29の素材を配置し、貫通孔32と
スタブチューブ29の素材の対峙部分の内部に中空状の
当て金34を内嵌する。
The stub tube 29 is formed so that the connection end chamfered portion 33 of the material of the stub tube 29 faces the inner surface of the lower mirror plate portion 31 in which the through hole 32 is formed at a predetermined interval. Then, a hollow metal pad 34 is fitted inside the confronting portion of the through hole 32 and the material of the stub tube 29.

【0056】そして、対峙させた前記の下鏡板部31の
内面とスタブチューブ29の素材の接続端両面取り部3
3とにより構成される溶接開先35に対してスタブチュ
ーブ29の素材の外部から該スタブチューブ29の素材
の周方向に沿って溶接作業を実施してスタブチューブ2
9の素材と下鏡板部31とを接続する溶接継手36を形
成させる。
Then, the inner surface of the lower end plate portion 31 and the material of the stub tube 29 which are opposed to each other are connected to each other at both ends of the chamfered portion 3.
The welding groove 35 constituted by 3 and 3 is welded from the outside of the material of the stub tube 29 along the circumferential direction of the material of the stub tube 29 to perform the welding work.
A welded joint 36 for connecting the material of No. 9 and the lower end plate portion 31 is formed.

【0057】その後、スタブチューブ29の素材と貫通
孔32の内面とを当て金34とともに切削し所期の寸法
のスタブチューブ29と貫通孔32とを完成する。な
お、31aは下鏡板の内面に施した溶接肉盛部である。
After that, the material of the stub tube 29 and the inner surface of the through hole 32 are cut together with the contact metal plate 34 to complete the stub tube 29 and the through hole 32 having desired dimensions. The reference numeral 31a is a weld overlay portion formed on the inner surface of the lower end plate.

【0058】前記によれば、溶接作業を実施したのち
に、スタブチューブ29の素材の内面を切削するように
したので、溶接による残留応力が低減され、応力腐食割
れの発生を防止できる。
According to the above, after performing the welding operation, the inner surface of the material of the stub tube 29 is cut, so that the residual stress due to welding is reduced and the occurrence of stress corrosion cracking can be prevented.

【0059】而して、前述の図7に示す実施例におい
て、前記のスタブチューブ29及び貫通孔32の内径を
仕上げ代のない所期の内径とし、前記の当て金34に代
えて、図1に示す削り代7,8又は図4に示す削り代2
5,26と同様の削り代をスタブチューブ29及び貫通
孔32の接続端付近の内側部に形成し、スタブチューブ
29と下鏡板部31とを溶接後、該削り代を切削除去し
てもよい。
In the embodiment shown in FIG. 7, the inner diameters of the stub tube 29 and the through hole 32 are set to desired inner diameters without finishing allowances, and instead of the pad 34, as shown in FIG. Shaving allowances 7 and 8 shown in FIG. 4 or Shaving allowances 2 shown in FIG.
A cutting margin similar to that of Nos. 5 and 26 may be formed on the inner side of the stub tube 29 and the through hole 32 in the vicinity of the connection end, and after the stub tube 29 and the lower end plate portion 31 are welded, the cutting margin may be removed by cutting. .

【0060】図8は、低合金鋼材の内面にインコネル系
溶接肉盛を施した下鏡板部31にインコネル管材をイン
コネル系溶接棒によって溶接したスタブチューブ29の
内面切削後の残留応力分布線図の一例であり、通常30
Kg/mm2程度の残留応力が16Kg/mm2maxに
低減していることを示している。図中、S3はスタブチ
ューブ29の外面側の残留応力を表し、S4はスタブチ
ューブ29の内面側の残留応力を表すものである。
FIG. 8 is a residual stress distribution diagram after cutting the inner surface of the stub tube 29 in which the Inconel pipe material is welded to the lower end plate portion 31 having the Inconel welding overlay on the inner surface of the low alloy steel material by the Inconel welding rod. This is an example, usually 30
Kg / mm 2 approximately of the residual stress indicates that they are reduced to 16Kg / mm 2 max. In the figure, S3 represents the residual stress on the outer surface side of the stub tube 29, and S4 represents the residual stress on the inner surface side of the stub tube 29.

【0061】なお、本発明は前述の実施例にのみ限定さ
れるものではなく、本発明の要旨を逸脱しない範囲内に
おいて種々変更を加え得ることは勿論である。
The present invention is not limited to the above-mentioned embodiments, and it goes without saying that various modifications can be made without departing from the gist of the present invention.

【0062】[0062]

【発明の効果】本発明の管材の突合せ溶接方法によれ
ば、下記のごとき種々の優れた効果を奏し得る。
According to the butt welding method for pipe materials of the present invention, various excellent effects as described below can be obtained.

【0063】I)溶接後の残留応力を低減させることが
可能であり、応力腐食割れの発生を防止できる。
I) It is possible to reduce the residual stress after welding and prevent the occurrence of stress corrosion cracking.

【0064】II)原子炉圧力容器のスタブチューブの
溶接に適用することができ、該溶接部の信頼性の向上を
図ることができる。
II) It can be applied to welding a stub tube of a reactor pressure vessel, and the reliability of the welded portion can be improved.

【図面の簡単な説明】[Brief description of drawings]

【図1】第1の発明の管材の突合せ溶接方法の一実施例
の概略を表す概念図である。
FIG. 1 is a conceptual diagram showing an outline of an embodiment of a butt welding method for pipe materials of the first invention.

【図2】第2の発明の管材の突合せ溶接方法の一実施例
の概略を表す概念図である。
FIG. 2 is a conceptual diagram showing an outline of an embodiment of a butt welding method for pipe materials of the second invention.

【図3】第3の発明の管材の突合せ溶接方法の一実施例
の概略を表す概念図である。
FIG. 3 is a conceptual diagram showing an outline of an embodiment of a butt welding method for pipe materials of the third invention.

【図4】第4の発明の管材の突合せ溶接方法の一実施例
の概略を表す概念図である。
FIG. 4 is a conceptual diagram showing an outline of an embodiment of a butt welding method for pipe materials of the fourth invention.

【図5】第5の発明の管材の突合せ溶接方法の一実施例
の概略を表す概念図である。
FIG. 5 is a conceptual diagram showing an outline of an embodiment of a butt welding method for pipe materials of the fifth invention.

【図6】図1〜図5に関連する管材の残留応力の低減傾
向を示す応力分布図である。
FIG. 6 is a stress distribution diagram showing a tendency of reducing residual stress of the pipe material related to FIGS. 1 to 5;

【図7】本発明の管材の突合せ溶接方法を原子炉圧力容
器の下鏡板に対する制御棒駆動機構のスタブチューブの
取り付け構造に適用した一実施例の概略を表す概念図で
ある。
FIG. 7 is a conceptual diagram showing an outline of one embodiment in which the butt welding method for pipe materials of the present invention is applied to a mounting structure of a stub tube of a control rod drive mechanism to a lower end plate of a reactor pressure vessel.

【図8】図6に関連するスタブチューブの残留応力分布
線図である。
FIG. 8 is a residual stress distribution diagram of the stub tube related to FIG.

【図9】従来の管材の突合せ溶接方法の一例の概略を表
す概念図である。
FIG. 9 is a conceptual diagram schematically showing an example of a conventional butt welding method for pipe materials.

【図10】図9に関連する管材板厚が比較的厚い場合の
残留応力の分布図である。
FIG. 10 is a residual stress distribution diagram relating to FIG. 9 when the tube material plate thickness is relatively large.

【図11】図9に関連する管材板厚が比較的薄い場合の
残留応力の分布図である。
FIG. 11 is a residual stress distribution diagram relating to FIG. 9 when the tube material plate thickness is relatively thin.

【符号の説明】[Explanation of symbols]

1,2,19,20 管材 7,8,13,14,25,26,27,28 削
り代 9,10,15,16,21,22 面取り部 11,17,23 溶接開先 12,18,24 溶接継手 12a,18a,24a 溶接継手部分
1,2,19,20 Pipe material 7,8,13,14,25,26,27,28 Cutting allowance 9,10,15,16,21,22 Chamfered portion 11,17,23 Weld groove 12,18, 24 Welded joint 12a, 18a, 24a Welded joint part

───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.6 識別記号 庁内整理番号 FI 技術表示箇所 G21C 13/00 ─────────────────────────────────────────────────── ─── Continuation of the front page (51) Int.Cl. 6 Identification code Internal reference number FI technical display location G21C 13/00

Claims (5)

【特許請求の範囲】[Claims] 【請求項1】 突合せ溶接によって相互に接続すべき2
つの管材(1)(2)の少なくとも接続端付近の内側部
に削り代(7)(8)を予め形成しておき、両管材
(1)(2)のそれぞれの接続端に周方向へ延びる面取
り部(9)(10)を成形し、該接続端の面取り部
(9)(10)を対峙させることにより構成される溶接
開先(11)に対して両管材(1)(2)の外部から該
両管材(1)(2)の周方向に沿って溶接作業を実施し
両管材(1)(2)を接続する溶接継手(12)を形成
させたのち、前記の削り代(7)(8)と該削り代
(7)(8)間の溶接継手部分(12a)とを切削する
ことを特徴とする管材の突合せ溶接方法。
1. Two to be interconnected by butt welding
Shaving allowances (7) and (8) are formed in advance on at least the inner portions of the two pipe members (1) and (2) in the vicinity of the connection ends, and the pipe members (1) and (2) extend in the circumferential direction at the respective connection ends. The chamfered portions (9) and (10) are formed, and the chamfered portions (9) and (10) of the connection ends are opposed to each other. After welding work is performed from the outside along the circumferential direction of the pipe materials (1) and (2) to form a welded joint (12) for connecting the pipe materials (1) and (2), the cutting allowance (7) is formed. ) (8) and the welding joint portion (12a) between the cutting margins (7) and (8) are cut, and a butt welding method for pipe materials is provided.
【請求項2】 突合せ溶接によって相互に接続すべき2
つの管材(1)(2)の少なくとも接続端付近の外側部
に削り代(13)(14)を予め形成しておき、両管材
(1)(2)のそれぞれの接続端に周方向へ延びる面取
り部(15)(16)を成形し、該接続端の面取り部
(15)(16)を対峙させることにより構成される溶
接開先(17)に対して両管材(1)(2)の外部から
該両管材(1)(2)の周方向に沿って溶接作業を実施
し両管材(1)(2)を接続する溶接継手(18)を形
成させたのち、前記の削り代(13)(14)と該削り
代(13)(14)間の溶接継手部分(18a)とを切
削することを特徴とする管材の突合せ溶接方法。
2. To be interconnected by butt welding 2
Shaving allowances (13) and (14) are formed in advance on at least the outer portions of the two pipe members (1) and (2) in the vicinity of the connection ends, and the pipe members (1) and (2) extend in the circumferential direction at their respective connection ends. The chamfered portions (15) and (16) are formed, and the chamfered portions (15) and (16) of the connecting ends are opposed to each other. After welding work is performed from the outside along the circumferential direction of the pipe materials (1) and (2) to form a welded joint (18) connecting the pipe materials (1) and (2), the cutting allowance (13) is applied. ) (14) and the welding joint portion (18a) between the cutting allowances (13) and (14) are cut, but a butt welding method for pipe materials.
【請求項3】 突合せ溶接によって相互に接続すべき2
つの管材(19)(20)に所定値よりも肉厚の厚いも
のを用い、両管材(19)(20)のそれぞれの接続端
に周方向へ延びる面取り部(21)(22)を成形し、
該接続端の面取り部(21)(22)を対峙させること
により構成される溶接開先(23)に対して両管材(1
9)(20)の外部から該両管材(19)(20)の周
方向に沿って溶接作業を実施し両管材(19)(20)
を接続する溶接継手(24)を形成させたのち、両管材
(19)(20)を所定寸法に切削することを特徴とす
る管材の突合せ溶接方法。
3. Two to be interconnected by butt welding
One pipe material (19) (20) having a wall thickness larger than a predetermined value is used, and chamfered portions (21) (22) extending in the circumferential direction are formed at respective connection ends of both pipe materials (19) (20). ,
Both pipe materials (1) to the welding groove (23) formed by facing the chamfered portions (21) (22) of the connection end.
9) Both pipes (19) and (20) are welded from the outside of the pipes (19) along the circumferential direction of the pipes (19) and (20).
A butt welding method for pipe materials, which comprises forming a welded joint (24) for connecting the pipes, and then cutting both pipe materials (19) (20) to a predetermined size.
【請求項4】 突合せ溶接によって相互に接続すべき2
つの管材(1)(2)の少なくとも接続端付近の内側部
に溶接肉盛によって削り代(25)(26)を予め形成
し該削り代(25)(26)に対して焼鈍処理を施した
のち、両管材(1)(2)のそれぞれの接続端に周方向
へ延びる面取り部(9)(10)を成形し、該接続端の
面取り部(9)(10)を対峙させることにより構成さ
れる溶接開先(11)に対して両管材(1)(2)の外
部から該両管材(1)(2)の周方向に沿って溶接作業
を実施し両管材(1)(2)を接続する溶接継手(1
2)を形成させたのち、前記の削り代(25)(26)
と該削り代(25)(26)間の溶接継手部分(12
a)とを切削することを特徴とする管材の突合せ溶接方
法。
4. Two to be interconnected by butt welding
The cutting margins (25) and (26) are formed in advance by welding overlay on at least the inner portions of the two pipe materials (1) and (2) near the connection ends, and the cutting margins (25) and (26) are annealed. After that, a chamfered portion (9) (10) extending in the circumferential direction is formed at each connection end of both pipe materials (1) and (2), and the chamfered portions (9) (10) at the connection ends are made to face each other. The welding groove (11) is welded from the outside of both pipe materials (1) and (2) along the circumferential direction of both pipe materials (1) and (2) to both pipe materials (1) and (2). Weld joint (1
After forming 2), the cutting allowance (25) (26)
And the welding joint portion (12) between the cutting allowance (25) and (26)
a) A butt welding method for pipe materials, characterized in that
【請求項5】 突合せ溶接によって相互に接続すべき2
つの管材(1)(2)の少なくとも接続端付近の外側部
に溶接肉盛によって削り代(27)(28)を予め形成
し該削り代(27)(28)に対して焼鈍処理を施した
のち、両管材(1)(2)のそれぞれの接続端に周方向
へ延びる面取り部(15)(16)を成形し、該接続端
の面取り部(15)(16)を対峙させることにより構
成される溶接開先(17)に対して両管材(1)(2)
の外部から該両管材(1)(2)の周方向に沿って溶接
作業を実施し両管材(1)(2)を接続する溶接継手
(18)を形成させたのち、前記の削り代(27)(2
8)と該削り代(27)(28)間の溶接継手部分(1
8a)とを切削することを特徴とする管材の突合せ溶接
方法。
5. Two to be interconnected by butt welding
The cutting allowances (27) and (28) are preliminarily formed by welding overlay on at least the outer portions of the two pipe materials (1) and (2) near the connection ends, and the cutting allowances (27) and (28) are annealed. After that, a chamfered portion (15) (16) extending in the circumferential direction is formed at each connection end of both pipe materials (1) and (2), and the chamfered portions (15) (16) at the connection ends are made to face each other. Both pipe materials (1) (2) for weld groove (17)
After the welding work is performed from the outside of the pipe material along the circumferential direction of the pipe materials (1) and (2) to form a welded joint (18) for connecting the pipe materials (1) and (2), the cutting allowance ( 27) (2
8) and the welding allowance (27) (28) between the welding joint portion (1
8a) is cut. Butt welding method for pipe materials.
JP6080371A 1994-04-19 1994-04-19 Method for butt-welding tube materials Pending JPH07284925A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP6080371A JPH07284925A (en) 1994-04-19 1994-04-19 Method for butt-welding tube materials

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP6080371A JPH07284925A (en) 1994-04-19 1994-04-19 Method for butt-welding tube materials

Publications (1)

Publication Number Publication Date
JPH07284925A true JPH07284925A (en) 1995-10-31

Family

ID=13716424

Family Applications (1)

Application Number Title Priority Date Filing Date
JP6080371A Pending JPH07284925A (en) 1994-04-19 1994-04-19 Method for butt-welding tube materials

Country Status (1)

Country Link
JP (1) JPH07284925A (en)

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007044725A (en) * 2005-08-09 2007-02-22 Babcock Hitachi Kk Method for repairing part having reduced thickness caused by flow accelerated corrosion
JP2007178157A (en) * 2005-12-27 2007-07-12 Toshiba Corp Method for preventive maintenance of structure in nuclear power plant
JP2007210023A (en) * 2006-02-13 2007-08-23 Nippon Steel Corp High strength welded steel pipe having excellent weld zone embrittlement crack property
EP2047941A1 (en) * 2007-10-11 2009-04-15 Siemens Aktiengesellschaft Method for the strengthening of a welded connexion, and/or for the increase of tolerance of a welded connexion in relation to fatigue load ; Element for a tower of a wind turbine ; Tower of a wind turbine and wind turbine
WO2012026324A1 (en) * 2010-08-24 2012-03-01 三菱重工業株式会社 Method for joining pipe base, method for producing vapor generator, member for pipe base, and vapor generator
JP2012051033A (en) * 2011-12-13 2012-03-15 Nippon Steel Corp Method of manufacturing welded steel pipe
KR20200082045A (en) * 2018-12-28 2020-07-08 클래드코리아원주 주식회사 Welding method for connection of clad pipe
WO2020166575A1 (en) * 2019-02-12 2020-08-20 株式会社デンソー Fuel flow passage member, and fuel injection valve employing same
CN114505612A (en) * 2022-03-22 2022-05-17 中国石油大学(华东) Hydrogenation reactor narrow-gap groove structure based on residual stress control and welding method

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2007044725A (en) * 2005-08-09 2007-02-22 Babcock Hitachi Kk Method for repairing part having reduced thickness caused by flow accelerated corrosion
JP2007178157A (en) * 2005-12-27 2007-07-12 Toshiba Corp Method for preventive maintenance of structure in nuclear power plant
JP2007210023A (en) * 2006-02-13 2007-08-23 Nippon Steel Corp High strength welded steel pipe having excellent weld zone embrittlement crack property
EP2047941A1 (en) * 2007-10-11 2009-04-15 Siemens Aktiengesellschaft Method for the strengthening of a welded connexion, and/or for the increase of tolerance of a welded connexion in relation to fatigue load ; Element for a tower of a wind turbine ; Tower of a wind turbine and wind turbine
WO2012026324A1 (en) * 2010-08-24 2012-03-01 三菱重工業株式会社 Method for joining pipe base, method for producing vapor generator, member for pipe base, and vapor generator
JP2012051033A (en) * 2011-12-13 2012-03-15 Nippon Steel Corp Method of manufacturing welded steel pipe
KR20200082045A (en) * 2018-12-28 2020-07-08 클래드코리아원주 주식회사 Welding method for connection of clad pipe
WO2020166575A1 (en) * 2019-02-12 2020-08-20 株式会社デンソー Fuel flow passage member, and fuel injection valve employing same
CN114505612A (en) * 2022-03-22 2022-05-17 中国石油大学(华东) Hydrogenation reactor narrow-gap groove structure based on residual stress control and welding method

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