JP3081825B2 - Friction stir welding - Google Patents
Friction stir weldingInfo
- Publication number
- JP3081825B2 JP3081825B2 JP09343318A JP34331897A JP3081825B2 JP 3081825 B2 JP3081825 B2 JP 3081825B2 JP 09343318 A JP09343318 A JP 09343318A JP 34331897 A JP34331897 A JP 34331897A JP 3081825 B2 JP3081825 B2 JP 3081825B2
- Authority
- JP
- Japan
- Prior art keywords
- probe
- joining
- joining member
- rotor
- joined
- 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.)
- Expired - Fee Related
Links
Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K20/00—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating
- B23K20/12—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating the heat being generated by friction; Friction welding
- B23K20/122—Non-electric welding by applying impact or other pressure, with or without the application of heat, e.g. cladding or plating the heat being generated by friction; Friction welding using a non-consumable tool, e.g. friction stir welding
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B23—MACHINE TOOLS; METAL-WORKING NOT OTHERWISE PROVIDED FOR
- B23K—SOLDERING OR UNSOLDERING; WELDING; CLADDING OR PLATING BY SOLDERING OR WELDING; CUTTING BY APPLYING HEAT LOCALLY, e.g. FLAME CUTTING; WORKING BY LASER BEAM
- B23K2101/00—Articles made by soldering, welding or cutting
- B23K2101/04—Tubular or hollow articles
- B23K2101/06—Tubes
Landscapes
- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Pressure Welding/Diffusion-Bonding (AREA)
Description
【0001】[0001]
【発明の属する技術分野】この発明は、例えば、エンジ
ンマウント、サスペンションアーム、スペースフレーム
等の車両用金属製部品を製作する際に用いられる摩擦撹
拌接合法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a friction stir welding method used when manufacturing metal parts for vehicles such as engine mounts, suspension arms, space frames, and the like.
【0002】[0002]
【従来の技術】近年、TIGやMIG溶接法などの溶融
接合法やろう付けに代わる接合手段として、固相接合法
の一つである摩擦撹拌接合法が開発されている。この接
合法を、例えば図4(i)に示すように、突合せ状態に
かつ周方向に回転自在に保持された互いに同形・同寸の
2個の円柱形の金属製接合部材(101)(101)を
突合せ部(102)において接合する場合について説明
すれば、径大の円柱状回転子(111)と、該回転子
(111)の肩部(112)軸線上に回転子(111)
と一体回転自在に突設されたプローブ(113)とを有
する接合工具(110)を用い、前記回転子(111)
を回転させて接合部材(101)(101)の突合せ部
(102)に回転するプローブ(113)を周面から挿
入する。挿入は回転子(111)の平坦面からなる肩部
(112)が接合部材(101)(101)の周面に当
接するまで行うことが、摩擦熱をより多く発生させ得て
接合部材(101)(101)を迅速に軟化させること
ができる点等で望ましい。2. Description of the Related Art In recent years, a friction stir welding method, which is one of solid-phase welding methods, has been developed as a joining means instead of a fusion welding method such as a TIG or MIG welding method or brazing. For example, as shown in FIG. 4 (i), this joining method is performed by joining two cylindrical metal joining members (101) and (101) of the same shape and the same size, which are held in abutting state and rotatably in the circumferential direction. ) At the butting portion (102) will be described. A large-diameter cylindrical rotor (111) and a rotor (111) on the axis of the shoulder (112) of the rotor (111) will be described.
A rotor (111) using a joining tool (110) having a probe (113) protruded so as to be able to rotate integrally with the rotor (111).
Is rotated, and the rotating probe (113) is inserted into the butting portion (102) of the joining members (101) (101) from the peripheral surface. Insertion is performed until the shoulder (112) consisting of the flat surface of the rotor (111) comes into contact with the peripheral surface of the joining members (101) and (101). This is desirable in that (101) can be softened quickly.
【0003】そして、プローブ挿入状態で、プローブが
順次、突合せ部(102)を通過するように接合部材
(101)(101)を周方向に1回転させる。プロー
ブ(113)の回転により発生する摩擦熱と、回転子
(111)の肩部(112)と接合部材(101)(1
01)の周面との摺動に伴い発生する摩擦熱とによっ
て、プローブ(113)との接触部分近傍において接合
部材(101)(101)は軟化しかつ撹拌されるとと
もに、接合部材(101)(101)の回転に伴って、
軟化撹拌部分がプローブ(113)の通過溝を埋めるよ
うに塑性流動したのち、摩擦熱を急速に失って冷却固化
される。[0003] With the probe inserted, the joining members (101) and (101) are rotated once in the circumferential direction so that the probes sequentially pass through the butting portion (102). The frictional heat generated by the rotation of the probe (113), the shoulder (112) of the rotor (111) and the joining members (101) (1)
01), the joining members (101) and (101) are softened and agitated in the vicinity of the contact portion with the probe (113) due to frictional heat generated by sliding with the peripheral surface of the joining member (101). With the rotation of (101),
After the softening and stirring portion plastically flows so as to fill the passage groove of the probe (113), the frictional heat is quickly lost, and the portion is cooled and solidified.
【0004】この現象が接合部材(101)(101)
の回転に伴って順次繰り返されていき、最終的に両接合
部材(101)(101)が突合せ部(102)におい
て接合一体化される。This phenomenon is caused by the joining members (101) and (101).
Are sequentially repeated with the rotation of the joint, and finally the two joining members (101) and (101) are joined and integrated at the butting portion (102).
【0005】また、プローブ挿入状態で、プローブ(1
13)を突合せ部(102)に沿って接合部材(10
1)(101)の周方向に移動させることにより、接合
部材(101)(101)を突合せ部(102)におい
て接合一体化することもできる。When the probe is inserted, the probe (1
13) along the joint (102) with the joining member (10).
1) By moving in the circumferential direction of (101), the joining members (101) and (101) can also be joined and integrated at the butting portion (102).
【0006】また、同図では、断面円形の接合部材(1
01)(101)を、周方向の接合予定部位において接
合一体化する場合を示したが、断面円形の接合部材(図
示せず)を、長さ方向の接合予定部位において接合一体
化する場合についても、上記と略同様の手順により接合
することができる。すなわち、例えば帯板状金属材を円
筒状に成形したのち、その軸方向の継ぎ目を突合せ接合
して得られる管材を製作する場合には、円筒状に成形さ
れた接合部材の継ぎ目部に、前記プローブを挿入し、プ
ローブ挿入状態で、プローブを継ぎ目に沿って移動さ
せ、あるいはプローブが順次、継ぎ目を通過するように
接合部材を移動させることにより、接合部材を接合する
方法が考えられる。[0006] In FIG. 1, a joining member (1) having a circular cross section is shown.
01) (101) is shown to be joined and integrated at a portion to be joined in the circumferential direction, but a joining member (not shown) having a circular cross section is joined and integrated at a portion to be joined in the longitudinal direction. Can also be joined by substantially the same procedure as described above. That is, for example, after forming a strip-shaped metal material into a cylindrical shape, when manufacturing a pipe material obtained by butt-joining the joints in the axial direction, the joint portion of the cylindrically-shaped joining member, A method of joining the joining members by inserting the probe and moving the probe along the joint while the probe is inserted, or by sequentially moving the joining member so that the probe passes through the joint is conceivable.
【0007】而して、このような摩擦撹拌接合法によれ
ば、固相接合であるため、接合部材である金属材の種類
に制限を受けないとか、TIGやMIG溶接法などの溶
融溶接法に比して熱歪みによる変形が少ない、等の利点
がある。According to such a friction stir welding method, since solid-state welding is used, there is no limitation on the type of metal material used as a joining member, or a fusion welding method such as a TIG or MIG welding method. There is an advantage that deformation due to thermal strain is less than that of
【0008】[0008]
【発明が解決しようとする課題】しかしながら、上記の
ように断面円形の接合部材を周方向の接合予定部位又は
長さ方向の接合予定部位において接合一体化する場合に
おいて、接合部材の径が小さいときには、次のような問
題が生じる。すなわち、例えば図4(ii)に示すよう
に、接合部材(101)(101)の突合せ部(10
2)にプローブ(113)を挿入した後、摩擦熱を多く
発生させるべく、回転子(111)の肩部(112)を
接合部材(101)(101)の周面に接触させても、
その接触面積は小さいことから、摩擦熱を多く発生させ
ることができず、所期する作用を発揮し得ない。一方、
かかる接触面積を大きくするために、回転子(111)
の肩部(112)の全部を接合部材(101)(10
1)内に埋入すると、同図(iii )に示すように、接合
部材(101)(101)の回転に伴い接合部材(10
1)(101)が回転子(111)の肩部(112)に
おける接合部材(101)(101)の回転方向反対側
の部分のコーナー部に引っ掛かって捲れてしまい(Xは
その捲れ部)、その結果、接合状態の良好な接合品を得
ることができなくなる。However, when a joining member having a circular cross section is joined and integrated at a joining portion in a circumferential direction or a joining portion in a longitudinal direction as described above, when the diameter of the joining member is small, However, the following problem occurs. That is, for example, as shown in FIG. 4 (ii), the butting portion (10) of the joining members (101) and (101)
After inserting the probe (113) into 2), even if the shoulder (112) of the rotor (111) is brought into contact with the peripheral surfaces of the joining members (101) and (101) in order to generate a large amount of frictional heat,
Since the contact area is small, a large amount of frictional heat cannot be generated, and the desired action cannot be exhibited. on the other hand,
In order to increase the contact area, the rotor (111)
Of the shoulders (112) of the joint members (101) (10)
1), the joining members (101) and (101) rotate as the joining members (101) and (101) rotate as shown in FIG.
1) (101) is hooked at the corner of the shoulder (112) of the rotor (111) on the opposite side of the rotation direction of the joining members (101) (101) and turned up (X is the turned up portion), As a result, it is not possible to obtain a joined product having a good joined state.
【0009】この発明は、このような難点を解決するた
めになされたもので、断面円形の接合部材を周方向又は
長さ方向の接合予定部位において接合一体化するに際
し、接合部材を迅速に軟化させることができ、かつ接合
部材が捲れてしまうことも防止することのできる摩擦撹
拌接合法を提供することを目的とする。The present invention has been made in order to solve such a problem, and when joining a joining member having a circular cross section at a portion to be joined in a circumferential direction or a length direction, the joining member is quickly softened. It is an object of the present invention to provide a friction stir welding method that can be performed and can prevent the joining member from being turned up.
【0010】[0010]
【課題を解決するための手段】上記目的を達成するため
に、この発明の請求項1は、断面円形の接合部材の周方
向の接合予定部位に、回転子の肩部軸線上に該回転子と
一体回転自在に突設された回転するプローブを挿入し、
プローブ挿入状態で、プローブを接合予定部位に沿って
移動させ、あるいはプローブが順次、接合予定部位を通
過するように接合部材を回転させることにより、接合部
材を接合する摩擦撹拌接合法において、前記回転子の肩
部におけるプローブの移動方向反対側の部分又は接合部
材の回転方向側の部分が接合部材に押し付けられ、かつ
プローブの移動方向側の部分又は接合部材の回転方向反
対側の部分が接合部材表面から浮き上がった状態で、プ
ローブを移動させ、あるいは接合部材を回転させること
を特徴とするものである。In order to achieve the above object, a first aspect of the present invention is to provide a method in which a joining member having a circular cross section is provided at a portion to be joined in a circumferential direction, and the rotor is mounted on a shoulder axis of the rotor. Insert a rotating probe that is protruded so that it can rotate integrally with the
In the friction stir welding method of joining the joining members, by moving the probe along the joining site in the probe inserted state, or by sequentially rotating the joining member so that the probe passes through the joining site, A portion of the shoulder of the probe opposite to the direction of movement of the probe or a portion of the joining member in the rotation direction is pressed against the joining member, and a portion of the probe in the direction of movement of the probe or a portion of the joining member opposite to the rotation direction is joined to the joining member. With the surface raised from the surface ,
Move the lobe, or is characterized in that the rotating joint member.
【0011】これによれば、接合の際に、回転子の肩部
におけるプローブの移動方向反対側の部分又は接合部材
の回転方向側の部分が接合部材に押し付けられているの
で、回転子の肩部の押付け部分と接合部材の表面乃至内
部素地との摺動によって摩擦熱が発生する。この摩擦熱
と、プローブの回転により発生する摩擦熱とによって、
プローブとの接触部分近傍において接合部材は迅速に軟
化する。加えて、回転子の肩部におけるプローブの移動
方向側の部分又は接合部材の回転方向反対側の部分が接
合部材の表面から浮き上がっているので、接合部材が、
回転子の肩部におけるプローブの移動方向側の部分又は
接合部材の回転方向反対側の部分のコーナー部に引っ掛
かることもなくなり接合部材が捲れなくなる。According to this, at the time of joining, the portion of the shoulder portion of the rotor opposite to the moving direction of the probe or the portion of the joining member on the rotating direction is pressed against the joining member. Friction heat is generated by sliding between the pressed portion of the portion and the surface or the inner substrate of the joining member. By this frictional heat and the frictional heat generated by the rotation of the probe,
The joining member softens quickly near the contact portion with the probe. In addition, since a portion of the shoulder portion of the rotor on the moving direction side of the probe or a portion of the joining member on the opposite side in the rotation direction is raised from the surface of the joining member, the joining member is
Neither the shoulder of the rotor nor the corner portion of the joint member on the side opposite to the rotation direction of the probe is caught on the shoulder, and the joint member cannot be turned up.
【0012】また、この発明の請求項2は、断面円形の
接合部材の長さ方向の接合予定部位に、回転子の肩部軸
線上に該回転子と一体回転自在に突設された回転するプ
ローブを挿入し、プローブ挿入状態で、プローブを接合
予定部位に沿って移動させ、あるいはプローブが順次、
接合予定部位を通過するように接合部材を移動させるこ
とにより、接合部材を接合する摩擦撹拌接合法におい
て、前記回転子の肩部におけるプローブの移動方向反対
側の部分又は接合部材の移動方向側の部分が接合部材に
押し付けられ、かつプローブの移動方向側の部分又は接
合部材の移動方向反対側の部分が接合部材表面から浮き
上がった状態で、プローブを移動させ、あるいは接合部
材を移動させることを特徴とするものである。[0012] According to a second aspect of the present invention, a rotating member is provided so as to be integrally rotatable with the rotor on the shoulder axis of the rotor at a portion to be joined in the longitudinal direction of the joining member having a circular cross section. Insert the probe, move the probe along the site to be joined while the probe is inserted, or
In the friction stir welding method of joining the joining members by moving the joining member so as to pass through the joining scheduled portion, in the portion of the shoulder of the rotor opposite to the moving direction of the probe or the moving direction of the joining member. portion is pressed against the joint member, and in a state where the moving direction opposite portions of the moving direction side of the part or the bonding member of the probe was lifted from the junction member surface, a moving to move the probe, or the joint member It is a feature.
【0013】これによれば、上記請求項1と同様に、回
転子の肩部の押付け部分と接合部材の表面乃至内部素地
との摺動に伴い発生する摩擦熱と、プローブの回転によ
り発生する摩擦熱とによって、プローブとの接触部分近
傍において接合部材は迅速に軟化する。また、接合部材
が、回転子の肩部におけるプローブの移動方向側の部分
又は接合部材の移動方向反対側の部分のコーナー部に引
っ掛かることもなくなり接合部材が捲れなくなる。According to this, as in the first aspect, the frictional heat generated due to the sliding between the pressing portion of the shoulder of the rotor and the surface or the inner substrate of the joining member and the rotation of the probe generate the frictional heat. Due to the frictional heat, the joining member quickly softens in the vicinity of the contact portion with the probe. Also, the joining member does not get caught on the corner of the shoulder of the rotor on the side of the moving direction of the probe or on the side opposite to the moving direction of the joining member, so that the joining member cannot be turned up.
【0014】[0014]
【発明の実施の形態】次に、この発明の実施形態を図面
に基づいて説明する。図1及び図2はこの発明の請求項
1の実施形態(第1実施形態)を示し、また図3はこの
発明の請求項2の実施形態(第2実施形態)を示してい
る。Next, an embodiment of the present invention will be described with reference to the drawings. 1 and 2 show an embodiment (first embodiment) of claim 1 of the present invention, and FIG. 3 shows an embodiment (second embodiment) of claim 2 of the present invention.
【0015】まず、この発明の請求項1の実施形態(第
1実施形態)について説明する。First, a first embodiment (first embodiment) of the present invention will be described.
【0016】図1において、(10)は摩擦撹拌接合を
行うために用いられる接合工具、(1)(1)はアルミ
ニウム又はその合金等の金属材からなる円柱形の接合部
材である。各接合部材(1)(1)は、互いに同径・同
寸に形成されている。この実施形態では、前記2個の接
合部材(1)(1)を、端部同士を突き合わせた突合せ
部(2)において、即ち周方向の接合予定部位において
接合する場合を示しており、各接合部材(1)(1)
は、それぞれ図示しない駆動機構を備えたチャック装置
によって、突合せ状態のもとで、各接合部材(1)
(1)の中心軸を回転軸(P)として周方向に回転自在
に保持されている。In FIG. 1, (10) is a welding tool used for performing friction stir welding, and (1) and (1) are cylindrical joining members made of a metal material such as aluminum or an alloy thereof. The joining members (1) and (1) are formed to have the same diameter and the same size. In this embodiment, a case is shown in which the two joining members (1) and (1) are joined at a butt portion (2) whose ends are joined to each other, that is, at a portion to be joined in the circumferential direction. Member (1) (1)
Each of the joining members (1) is held in a butted state by a chuck device having a drive mechanism (not shown).
It is held rotatably in the circumferential direction with the central axis of (1) as the rotation axis (P).
【0017】前記接合工具(10)は、径大の円柱状回
転子(11)と、該回転子(11)の先端平坦面からな
る肩部(12)の軸線(Q)上に該回転子(11)と一
体回転自在に突設された径小のピン状プローブ(13)
とを有している。前記回転子(11)及びプローブ(1
3)は、ともに前記接合部材(1)(1)より硬質でか
つ接合時に発生する摩擦熱に耐え得る耐熱材料によって
形成されている。また、前記プローブ(13)の周面に
は、突合せ部(2)の撹拌用凹凸(図示せず)が形成さ
れている。The joining tool (10) includes a cylindrical rotor (11) having a large diameter and a shoulder (12) formed of a flat surface at the tip of the rotor (11). A small-diameter pin-shaped probe (13) protruded so as to be rotatable integrally with (11)
And The rotor (11) and the probe (1)
3) is made of a heat-resistant material that is harder than the joining members (1) and (1) and that can withstand frictional heat generated during joining. Further, on the peripheral surface of the probe (13), an agitation irregularity (not shown) of the butting portion (2) is formed.
【0018】かかる構成の接合工具(10)は、接合部
材(1)(1)の突合せ部(2)上方に、プローブ(1
3)を下方に向ける態様にして配置されるとともに、図
示しない昇降装置に取り付けられて上下方向に移動しう
るものとなされており、この昇降装置を操作すること
で、プローブ(13)を接合部材(1)(1)の突合せ
部(2)に挿入したり、挿入したプローブ(13)を接
合部材(1)(1)の突合せ部(2)から引き抜いたり
することができるものとなされている。さらに、接合部
材(1)(1)の突合せ部(2)への挿入の際には、前
記プローブ(13)は、接合部材(1)(1)の回転軸
(P)に向かって挿入されるものとなされている。The joining tool (10) having such a structure is provided with a probe (1) above the butting portion (2) of the joining members (1) and (1).
3) is arranged so as to face downward, and is attached to a lifting device (not shown) so as to be movable in the vertical direction. By operating the lifting device, the probe (13) is connected to the joining member. (1) The probe (13) can be inserted into the butting portion (2) of (1), and the inserted probe (13) can be pulled out from the butting portion (2) of the joining members (1) and (1). . Further, when inserting the joining members (1) and (1) into the butting portion (2), the probe (13) is inserted toward the rotation axis (P) of the joining members (1) and (1). It has been done.
【0019】次に、この接合工具(10)を用いて、前
記接合部材(1)(1)を突合せ部(2)において接合
する場合について説明する。Next, a case where the joining members (1) and (1) are joined at the butting portion (2) using the joining tool (10) will be described.
【0020】まず、図1(i)に示すように、接合工具
(10)の回転子(11)を回転させてこれと一体回転
するプローブ(13)を回転させながら下方に移動させ
て接合部材(1)(1)の突合せ部(2)における周面
に接触させる。回転するプローブ(13)との接触によ
り生じる摩擦熱により接合部材(1)(1)の接触部分
を軟化可塑化させ、更にプローブ(13)を押し付けて
該プローブ(13)を接合部材(1)(1)の回転軸
(P)に向かって接合部材(1)(1)内部に挿入して
いく。First, as shown in FIG. 1 (i), by rotating the rotor (11) of the welding tool (10) and moving the probe (13), which rotates integrally with the rotor (11), downward while rotating, the welding member. (1) The peripheral surface of the butting portion (2) of (1) is brought into contact. The contact portion of the joining members (1) and (1) is softened and plasticized by frictional heat generated by contact with the rotating probe (13), and further the probe (13) is pressed to join the probe (13) to the joining member (1). It is inserted into the joining member (1) (1) toward the rotation axis (P) of (1).
【0021】回転子(11)の肩部(12)が接合部材
(1)(1)の周面に当接すると、この当接によって、
プローブ(13)の回転により発生する摩擦熱により軟
化した軟化部分の素材の飛散が防止され、更に回転子
(11)の肩部(12)と接合部材(1)(1)の周面
との摺動による摩擦熱を発生させて、プローブ(13)
との接触部分及びその近傍の軟化を促進する。When the shoulder (12) of the rotor (11) comes into contact with the peripheral surfaces of the joining members (1) and (1), this contact causes
The material of the softened portion softened by the frictional heat generated by the rotation of the probe (13) is prevented from being scattered, and furthermore, the shoulder (12) of the rotor (11) and the peripheral surface of the joining members (1) (1) are formed. Probe (13) that generates frictional heat due to sliding
Promotes the softening of the contact area with and the vicinity thereof.
【0022】さらに、回転子(11)の肩部(12)を
押し付けて、同図(ii)に示すように回転子(11)の
肩部(12)全部を接合部材(1)(1)内に埋入させ
る。回転子(11)の肩部(12)全部が接合部材
(1)(1)内に埋入されていることから、摩擦熱は従
来よりも多く発生するものとなり、接合部材(1)
(1)はプローブ(13)との接触部分近傍において迅
速に軟化する。Further, the shoulder (12) of the rotor (11) is pressed against the rotor (11), and the entire shoulder (12) of the rotor (11) is joined to the joining members (1) (1) as shown in FIG. Buried inside. Since the entire shoulder (12) of the rotor (11) is embedded in the joining members (1) and (1), frictional heat is generated more than before, and the joining member (1)
(1) is rapidly softened in the vicinity of the contact portion with the probe (13).
【0023】こうして、プローブ(13)との接触部分
近傍を十分に軟化させた後、プローブ(13)が順次、
突合せ部(2)を通過するように接合部材(1)(1)
を回転させる。After sufficiently softening the vicinity of the contact portion with the probe (13), the probe (13)
Joining members (1) (1) so as to pass through the butting portion (2)
To rotate.
【0024】この接合部材(1)(1)の回転操作の際
に、図2(i)に示すように、プローブ(13)を接合
部材(1)(1)の突合せ部(2)に挿入した状態で、
回転子(11)を接合部材(1)(1)の回転方向反対
側に回転子(11)の肩部(12)の直径の約1/4だ
け水平に移動させることによって、回転子(11)の肩
部(12)における接合部材(1)(1)の回転方向側
の部分(A)と接合部材(1)(1)の回転方向反対側
の部分(B)のうちのプローブ寄りの部分(B1)とを
接合部材(1)(1)内に埋入し、かつこれら埋入部分
(A)(B1)と反対側の部分(B2)を接合部材
(1)(1)表面から浮き上がらせた状態にする。ま
た、同図(ii)に示すように、回転子(11)を接合部
材(1)(1)の回転方向側に傾けることによって、か
かる状態を実現させても良い。あるいはまた、プローブ
(13)の挿入後接合工具(10)の姿勢を変えるので
はなく、最初から図2(i)(ii)の状態となるような
工具姿勢でプローブ(13)を挿入しても良い。When the joining members (1) and (1) are rotated, the probe (13) is inserted into the butting portion (2) of the joining members (1) and (1) as shown in FIG. In the state
By moving the rotor (11) horizontally to the opposite side of the rotation direction of the joining members (1) and (1) by about 1/4 of the diameter of the shoulder (12) of the rotor (11), the rotor (11) is moved. ) Near the probe in the portion (A) of the joint member (1) (1) on the rotational direction side and the portion (B) of the joint member (1) (1) on the opposite rotational direction in the shoulder portion (12). The part (B1) is embedded in the joining members (1) and (1), and the part (B2) opposite to the embedded parts (A) and (B1) is removed from the surface of the joining members (1) and (1). Make it in a raised state. Further, as shown in FIG. 2B, such a state may be realized by inclining the rotor (11) in the rotation direction of the joining members (1) and (1). Alternatively, instead of changing the posture of the joining tool (10) after the insertion of the probe (13), the probe (13) is inserted from the beginning with a tool posture such that the state of FIGS. 2 (i) and (ii) is obtained. Is also good.
【0025】プローブ(13)の回転により発生する摩
擦熱と、回転子(11)の肩部(12)の埋入部分
(A)(B1)と接合部材(1)(1)内部の素地との
摺動に伴い発生する摩擦熱とによって、プローブ(1
3)との接触部分近傍において両接合部材(1)(1)
は極めて迅速に軟化し、かつ撹拌されるとともに、接合
部材(1)(1)の回転に伴って、軟化撹拌部分がプロ
ーブ(13)及び回転子(11)の肩部(12)の埋入
部分(A)(B1)の通過溝を埋めるように塑性流動し
たのち、摩擦熱を急速に失って冷却固化される。この現
象が接合部材(1)(1)の回転に伴って順次繰り返さ
れていき、最終的に両接合部材(1)(1)が突合せ部
(2)において接合一体化される。The frictional heat generated by the rotation of the probe (13), the embedded portions (A) and (B1) of the shoulder portion (12) of the rotor (11) and the base material inside the joining members (1) and (1). The probe (1)
3) Both joining members (1) (1) in the vicinity of the contact portion with (3)
Is softened and stirred very quickly, and as the joining members (1) and (1) rotate, the softened and stirred part is embedded in the probe (13) and the shoulder (12) of the rotor (11). After plastically flowing so as to fill the passage grooves in the portions (A) and (B1), the frictional heat is rapidly lost and the solidified material is cooled and solidified. This phenomenon is sequentially repeated with the rotation of the joining members (1), (1), and finally the two joining members (1), (1) are joined and integrated at the butt portion (2).
【0026】また、接合部材(1)(1)の回転の際
に、回転子(11)の肩部(12)における埋入部分
(A)(B1)と反対側の部分(B2)が接合部材
(1)(1)表面から浮き上がっているので、接合部材
(1)(1)が回転子(11)の肩部(12)における
接合部材の回転方向反対側の部分のコーナー部に引っ掛
かって捲れてしまう虞もなく、接合部材(1)(1)は
良好に接合される。When the joining members (1) and (1) rotate, a portion (B2) of the shoulder (12) of the rotor (11) opposite to the embedding portions (A) and (B1) is joined. Since the joining members (1) and (1) are lifted from the surfaces of the members (1) and (1), the joining members (1) and (1) are hooked on the corners of the shoulder (12) of the rotor (11) on the opposite side to the rotation direction of the joining member. The joining members (1) and (1) are satisfactorily joined without fear of being turned up.
【0027】こうして接合部材(1)(1)は接合され
て、接合状態が良好な突合せ接合品となる。Thus, the joining members (1) and (1) are joined to form a butt-joined product having a good joining state.
【0028】而して、この第1実施形態において、接合
部材(1)(1)の接合は、プローブ(13)が順次、
突合せ部(2)を通過するように接合部材(1)(1)
を回転させることにより遂行されているが、プローブ
(13)を接合部材(1)(1)の突合せ部(2)に沿
って接合部材(1)(1)の周方向に移動させることに
より遂行しても良い。In the first embodiment, the joining of the joining members (1) and (1) is performed by the probe (13) sequentially.
Joining members (1) (1) so as to pass through the butting portion (2)
Is performed by moving the probe (13) in the circumferential direction of the joining members (1) and (1) along the abutting portion (2) of the joining members (1) and (1). You may.
【0029】この場合、プローブ(13)の移動の際に
は、プローブ(13)を接合部材(1)(1)の突合せ
部(2)に挿入した状態のもとで、回転子(11)の肩
部(12)におけるプローブ(13)の移動方向反対側
の部分を接合部材(1)(1)に押し付けて接合部材
(1)(1)内に埋入し、かつ回転子(11)の肩部
(12)におけるプローブ(13)の移動方向側の部分
を接合部材(1)(1)の表面から浮き上がらせた状態
にすることが必要である。In this case, when moving the probe (13), the rotor (11) is inserted under the condition that the probe (13) is inserted into the butting portion (2) of the joining members (1) and (1). A portion of the shoulder (12) of the side opposite to the moving direction of the probe (13) is pressed against the joining members (1), (1) to be embedded in the joining members (1), (1), and the rotor (11). It is necessary that the portion of the shoulder (12) on the movement direction side of the probe (13) is raised from the surface of the joining members (1) and (1).
【0030】次に、この発明の請求項2の実施形態(第
2実施形態)について説明する。図3には上記第1実施
形態と同一の要素に同一の符号が付されており、以下、
この第2実施形態を上記第1実施形態との相違点を中心
に説明する。Next, a second embodiment of the present invention will be described. In FIG. 3, the same elements as those in the first embodiment are denoted by the same reference numerals.
The second embodiment will be described focusing on the differences from the first embodiment.
【0031】この第2実施形態は、帯板状金属材を円筒
状に成形したのち、その軸方向の継ぎ目部(3)を突合
せ接合して得られる管材を製作する場合を示している。The second embodiment shows a case in which a tubular member obtained by forming a strip-shaped metal material into a cylindrical shape and then joining the joints (3) in the axial direction by butt is manufactured.
【0032】この第2実施形態において、円筒状に成形
された接合部材(1)は、次のようにして接合される。
すなわち、接合部材(1)の継ぎ目部(3)にプローブ
(13)を挿入し、プローブ挿入状態で、プローブ(1
3)を継ぎ目部(3)に沿って移動させる。このプロー
ブ(13)の移動操作の際に、同図(ii)に示すよう
に、プローブ(13)を接合部材(1)の継ぎ目部
(3)に挿入した状態で、回転子(11)をプローブ
(13)の移動方向反対側に傾けて該回転子(11)の
肩部(12)を接合部材(1)に押し付けることによっ
て、回転子(11)の肩部(12)におけるプローブの
移動方向反対側の部分(A)と、プローブ(13)の移
動方向側の部分(B)のうちのプローブ寄りの部分(B
1)とを接合部材(1)内に埋入し、かつこれら埋入部
分(A)(B1)と反対側の部分(B2)を接合部材
(1)の表面から浮き上がらせた状態にする。In the second embodiment, the joining member (1) formed into a cylindrical shape is joined as follows.
That is, the probe (13) is inserted into the joint (3) of the joining member (1), and the probe (1) is inserted in the probe inserted state.
3) is moved along the seam (3). At the time of the moving operation of the probe (13), as shown in FIG. 2 (ii), with the probe (13) inserted into the joint (3) of the joining member (1), the rotor (11) is moved. The probe moves on the shoulder (12) of the rotor (11) by pressing the shoulder (12) of the rotor (11) against the joining member (1) by inclining the probe (13) in the direction opposite to the movement direction. The part (A) on the opposite side to the direction and the part (B) closer to the probe among the parts (B) on the moving direction side of the probe (13).
1) are buried in the joining member (1), and the portion (B2) opposite to the buried portions (A) and (B1) is brought up from the surface of the joining member (1).
【0033】プローブ(13)の回転により発生する摩
擦熱と、回転子(11)の肩部(12)の埋入部分
(A)(B1)と接合部材(1)の内部素地との摺動に
伴い発生する摩擦熱とによって、プローブ(13)との
接触部分近傍において両接合部材(1)は迅速に軟化
し、かつ撹拌されるとともに、プローブ(13)の移動
に伴って、軟化撹拌部分がプローブ(13)及び回転子
(11)の肩部(12)の埋入部分(A)(B1)の通
過溝を埋めるように塑性流動したのち、摩擦熱を急速に
失って冷却固化される。The frictional heat generated by the rotation of the probe (13) and the sliding between the embedded portions (A) and (B1) of the shoulder (12) of the rotor (11) and the inner substrate of the joining member (1). The two joint members (1) are quickly softened and agitated in the vicinity of the contact portion with the probe (13) due to the frictional heat generated by the movement of the probe (13). Flows plastically so as to fill the passage grooves of the embedded portions (A) and (B1) of the probe (13) and the shoulder portion (12) of the rotor (11), and then rapidly loses frictional heat and is cooled and solidified. .
【0034】この現象がプローブ(13)の移動に伴っ
て順次繰り返されていき、最終的に接合部材(1)が継
ぎ目部(3)において接合される。なお、同図中(4)
はプローブ(13)により接合された接合部である。This phenomenon is sequentially repeated with the movement of the probe (13), and finally the joining member (1) is joined at the joint (3). (4) in the figure.
Is a joint portion joined by the probe (13).
【0035】また、プローブ(13)の移動の際に、回
転子(11)の肩部(12)における埋入部分(A)
(B1)と反対側の部分(B2)が接合部材(1)の表
面から浮き上がっているので、接合部材(1)が回転子
(11)の肩部(12)におけるプローブの移動方向側
の部分のコーナー部に引っ掛かって捲れてしまう虞もな
く、接合部材(1)は良好に接合される。When the probe (13) is moved, the embedded portion (A) at the shoulder (12) of the rotor (11) is moved.
Since the portion (B2) on the opposite side to (B1) is raised from the surface of the joining member (1), the joining member (1) is located on the shoulder (12) of the rotor (11) in the direction of movement of the probe. The joining member (1) is satisfactorily joined without any risk of being caught and turned up at the corner portion of the joining member.
【0036】こうして接合部材(1)は接合されて、接
合状態が良好な管材となる。In this way, the joining member (1) is joined to form a pipe having a good joining state.
【0037】而して、この第2実施形態において、接合
部材(1)の接合は、プローブ(13)を接合部材
(1)の継ぎ目部(3)に沿って移動させことにより遂
行されているが、プローブ(13)が順次、継ぎ目部
(3)を通過するように接合部材(1)を移動させるこ
とにより遂行してもよい。In the second embodiment, the joining of the joining member (1) is performed by moving the probe (13) along the joint (3) of the joining member (1). However, this may be performed by moving the joining member (1) so that the probe (13) sequentially passes through the joint (3).
【0038】この場合、接合部材(1)の移動の際に
は、プローブ(13)を接合部材(1)の継ぎ目部
(3)に挿入した状態のもとで、回転子(11)の肩部
(12)における接合部材(1)の移動方向側の部分を
接合部材(1)に押し付けて接合部材(1)内に埋入
し、かつ回転子(11)の肩部(12)におけるプロー
ブ(13)の移動方向反対側の部分を接合部材(1)の
表面から浮き上がらせた状態にすることが必要である。In this case, when the joining member (1) is moved, the shoulder of the rotor (11) is inserted under the condition that the probe (13) is inserted into the joint (3) of the joining member (1). A part of the joining member (1) on the moving direction side of the part (12) is pressed against the joining member (1) to be embedded in the joining member (1), and a probe at a shoulder (12) of the rotor (11). It is necessary to make the part on the opposite side of the moving direction of (13) float from the surface of the joining member (1).
【0039】以上、この発明の請求項1及び請求項2の
実施形態について説明したが、この発明に係る摩擦撹拌
接合法は、いずれも、直径が100mm以下という小径
の接合部材の接合に特に好適である。すなわち、従来法
において、直径が100mm以下である接合部材を接合
する場合は、回転子の肩部を接合部材の周面に接触させ
ても、その接触面積は極めて小さく、これに伴い発生す
る摩擦熱の量も極めて少ない。これに対し、この発明に
係る摩擦撹拌接合法によれば、このような小径の接合部
材であっても摩擦熱の発生量を多くすることができ、か
かる接合部材の接合を迅速にかつ確実に遂行することが
できる。Although the first and second embodiments of the present invention have been described above, the friction stir welding method according to the present invention is particularly suitable for joining joining members having a small diameter of 100 mm or less. It is. That is, in the conventional method, when a joining member having a diameter of 100 mm or less is joined, the contact area is extremely small even if the shoulder of the rotor is brought into contact with the peripheral surface of the joining member. The amount of heat is also very small. On the other hand, according to the friction stir welding method according to the present invention, even if the joining member has such a small diameter, the amount of frictional heat can be increased, and the joining of the joining member can be quickly and reliably performed. Can be accomplished.
【0040】[0040]
【発明の効果】上述の次第で、この発明の請求項1に係
る摩擦撹拌接合法によれば、接合の際に、回転子の肩部
におけるプローブの移動方向反対側の部分又は接合部材
の回転方向側の部分が接合部材に押し付けられているの
で、回転子の肩部の押し付け部分と接合部材の表面乃至
内部素地との摺動によって摩擦熱を発生させ得るものと
なり、この摩擦熱とプローブの回転により発生する摩擦
熱とによって、プローブとの接触部分近傍において接合
部材を迅速に軟化させることができる。また、小径の接
合部材であっても摩擦熱を多く発生させることができ、
小径の接合部材の接合を迅速にかつ確実に遂行すること
ができる。さらに、摩擦熱の発生量が多くなることか
ら、接合速度を速くすることができ、接合作業能率が向
上するという効果を奏する。また、回転子の肩部におけ
るプローブの移動方向側の部分又は接合部材の回転方向
反対側の部分が接合部材の表面から浮き上がっているの
で、接合部材が捲れてしまうことも防止でき、もって接
合状態の良好な接合品を製作することができる。As described above, according to the friction stir welding method according to the first aspect of the present invention, at the time of welding, the portion of the shoulder of the rotor opposite to the moving direction of the probe or the rotation of the welding member is rotated. Since the portion on the side of the direction is pressed against the joining member, frictional heat can be generated by sliding between the pressed portion of the rotor shoulder and the surface or the inner substrate of the joining member, and this frictional heat and the probe By the frictional heat generated by the rotation, the joining member can be quickly softened in the vicinity of the contact portion with the probe. Also, even a small diameter joining member can generate a lot of frictional heat,
The joining of the small-diameter joining members can be performed quickly and reliably. Further, since the amount of generated frictional heat is increased, the joining speed can be increased, and the effect of improving the joining work efficiency is exhibited. In addition, since a portion of the shoulder of the rotor on the side in the moving direction of the probe or a portion on the opposite side of the rotating direction of the joining member is raised from the surface of the joining member, it is possible to prevent the joining member from being turned up, and thus the joined state. Can be manufactured.
【0041】また、この発明の請求項2に係る摩擦撹拌
接合法も上記と同じ効果を奏する。Further, the friction stir welding method according to claim 2 of the present invention has the same effect as described above.
【図1】この発明の請求項1に係る摩擦撹拌接合法の一
実施形態(第1実施形態)を示す図であって、(i)は
プローブを接合部材の突合せ部に挿入する前の状態を示
す斜視図、(ii)は接合部材を回転させる前の状態を示
す、接合部材を突合せ部において切断した断面図であ
る。FIG. 1 is a view showing one embodiment (first embodiment) of a friction stir welding method according to claim 1 of the present invention, wherein (i) shows a state before a probe is inserted into a joint portion of a joining member. (Ii) is a cross-sectional view showing the state before the joining member is rotated and showing the joining member cut at the butting portion.
【図2】同実施形態を示す、接合部材を突合せ部におい
て切断した断面図であって、(i)は回転子を接合部材
の回転方向反対側に水平に移動した状態、(ii)は回転
子を接合部材の回転方向側に傾けた状態である。FIG. 2 is a cross-sectional view showing the same embodiment, in which a joining member is cut at a butt portion, where (i) is a state in which a rotor is horizontally moved to a side opposite to a rotation direction of the joining member, and (ii) is a rotation. This is a state in which the child is tilted toward the rotation direction side of the joining member.
【図3】この発明の請求項2に係る摩擦撹拌接合法の一
実施形態(第2実施形態)を示す図であって、(i)は
プローブを接合部材の継ぎ目に挿入した状態を示す斜視
図、(ii)は同(i)中III −III 線断面図である。FIG. 3 is a view showing one embodiment (second embodiment) of the friction stir welding method according to claim 2 of the present invention, wherein (i) is a perspective view showing a state in which a probe is inserted into a joint of a joining member. FIG. 2 (ii) is a sectional view taken along line III-III in FIG. 1 (i).
【図4】従来の摩擦撹拌接合法を示す図であって、
(i)はプローブを接合部材の突合せ部に挿入した状態
を示す斜視図、(ii)は同(i)中IV−IV線断面図、
(iii)は接合部材が捲れた状態を示す断面図である。FIG. 4 is a view showing a conventional friction stir welding method,
(I) is a perspective view showing a state where the probe is inserted into the butting portion of the joining member, (ii) is a cross-sectional view taken along the line IV-IV in (i),
(Iii) is a sectional view showing a state where the joining member is turned up.
1…接合部材 2…突合せ部(周方向の接合予定部位) 3…継ぎ目部(長さ方向の接合予定部位) 10…接合工具 11…回転子 12…肩部 13…プローブ DESCRIPTION OF SYMBOLS 1 ... Joining member 2 ... Butt part (site to be joined in the circumferential direction) 3 ... Seam part (site to be joined in the length direction) 10 ... Joining tool 11 ... Rotor 12 ... Shoulder portion 13 ... Probe
───────────────────────────────────────────────────── フロントページの続き (72)発明者 川田 斉礼 堺市海山町6丁224番地 昭和アルミニ ウム株式会社内 (72)発明者 橋本 武典 堺市海山町6丁224番地 昭和アルミニ ウム株式会社内 (56)参考文献 特開 平11−33749(JP,A) 特開 平10−180467(JP,A) 特開 平10−249551(JP,A) 特開 平10−160097(JP,A) 特表 平9−508073(JP,A) (58)調査した分野(Int.Cl.7,DB名) B23K 20/12 JICSTファイル(JOIS)──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Sayori Kawada 6,224 Kaiyamacho, Sakai City Showa Aluminum Co., Ltd. (72) Inventor Takenori Hashimoto 6,224 Kaiyamacho Sakai City, Showa Aluminum Co., Ltd. (56) References JP-A-11-33749 (JP, A) JP-A-10-180467 (JP, A) JP-A-10-249551 (JP, A) JP-A-10-160097 (JP, A) Table Hei 9-508073 (JP, A) (58) Field surveyed (Int. Cl. 7 , DB name) B23K 20/12 JICST file (JOIS)
Claims (2)
向の接合予定部位(2)に、回転子(11)の肩部(12)
軸線上に該回転子と一体回転自在に突設された回転する
プローブ(13)を挿入し、プローブ挿入状態で、プロー
ブ(13)を接合予定部位(2)に沿って移動させ、ある
いはプローブ(13)が順次、接合予定部位(2)を通過
するように接合部材(1)(1)を回転させることによ
り、接合部材(1)(1)を接合する摩擦撹拌接合法に
おいて、 前記回転子(11)の肩部(12)におけるプローブの移動
方向反対側の部分又は接合部材の回転方向側の部分
(A)が接合部材に押し付けられ、かつプローブの移動
方向側の部分又は接合部材の回転方向反対側の部分(B
2)が接合部材表面から浮き上がった状態で、プローブ
(13)を移動させ、あるいは接合部材(1)(1)を回
転させることを特徴とする摩擦撹拌接合法。1. A shoulder (12) of a rotor (11) is provided on a portion (2) of a joining member (1) having a circular cross section in a circumferential direction of a joining member (1).
A rotatable probe (13) protruding from the rotor so as to be rotatable integrally with the rotor is inserted, and the probe (13) is moved along the portion to be joined (2) while the probe is inserted, or the probe ( In the friction stir welding method in which the joining members (1) and (1) are joined by rotating the joining members (1) and (1) so that the joining members (13) sequentially pass through the portions to be joined (2), The portion of the shoulder (12) of (11) on the side opposite to the movement direction of the probe or the portion (A) on the rotation direction of the joining member is pressed against the joining member, and the portion on the movement direction side of the probe or rotation of the joining member. Opposite side (B
2) While is lifted from the junction member surface, the friction stir welding method characterized by rotating moving probe <br/> (13), or joining member (1) (1).
接合予定部位(3)に、回転子(11)の肩部(12)軸線
上に該回転子と一体回転自在に突設された回転するプロ
ーブ(13)を挿入し、プローブ挿入状態で、プローブ
(13)を接合予定部位(3)に沿って移動させ、あるい
はプローブ(13)が順次、接合予定部位(3)を通過す
るように接合部材(1)を移動させることにより、接合
部材(1)を接合する摩擦撹拌接合法において、 前記回転子(11)の肩部(12)におけるプローブの移動
方向反対側の部分又は接合部材の移動方向側の部分
(A)が接合部材に押し付けられ、かつプローブの移動
方向側の部分又は接合部材の移動方向反対側の部分(B
2)が接合部材表面から浮き上がった状態で、プローブ
(13)を移動させ、あるいは接合部材(1)を移動させ
ることを特徴とする摩擦撹拌接合法。2. A part (3) to be joined in the longitudinal direction of the joining member (1) having a circular cross section, and is projected on a shoulder (12) axis of the rotor (11) so as to be integrally rotatable therewith. Insert the rotating probe (13), and move the probe (13) along the site to be joined (3) with the probe inserted, or the probe (13) sequentially passes through the site to be joined (3) In the friction stir welding method of joining the joining member (1) by moving the joining member (1) so as to perform, a portion of the shoulder (12) of the rotor (11) on the side opposite to the moving direction of the probe or A portion (A) of the joining member on the moving direction side is pressed against the joining member, and a portion on the moving direction side of the probe or a portion (B) on the opposite side of the moving direction of the joining member.
2) While is lifted from the junction member surface, the friction stir welding method characterized by moving moving probe <br/> (13), or joining member (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP09343318A JP3081825B2 (en) | 1997-12-12 | 1997-12-12 | Friction stir welding |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP09343318A JP3081825B2 (en) | 1997-12-12 | 1997-12-12 | Friction stir welding |
Publications (2)
Publication Number | Publication Date |
---|---|
JPH11170071A JPH11170071A (en) | 1999-06-29 |
JP3081825B2 true JP3081825B2 (en) | 2000-08-28 |
Family
ID=18360600
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
JP09343318A Expired - Fee Related JP3081825B2 (en) | 1997-12-12 | 1997-12-12 | Friction stir welding |
Country Status (1)
Country | Link |
---|---|
JP (1) | JP3081825B2 (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0632328U (en) * | 1992-09-29 | 1994-04-26 | 三甲株式会社 | Box pallet made of synthetic resin |
Families Citing this family (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP3575748B2 (en) | 2000-03-06 | 2004-10-13 | 株式会社日立製作所 | Friction stir welding method |
-
1997
- 1997-12-12 JP JP09343318A patent/JP3081825B2/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JPH0632328U (en) * | 1992-09-29 | 1994-04-26 | 三甲株式会社 | Box pallet made of synthetic resin |
Also Published As
Publication number | Publication date |
---|---|
JPH11170071A (en) | 1999-06-29 |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
JP3897391B2 (en) | Friction stir welding method for metal joining members | |
JP3262757B2 (en) | Friction stir welding | |
JP2000301360A (en) | Friction agitation joining device | |
JP2000246465A (en) | Tool for friction agitation joining | |
JP2001321965A (en) | Corner joining method by friction stir welding | |
JPH1128581A (en) | Formation of joint by friction stirring joining | |
JP2002011583A (en) | Method of friction stir welding | |
JP3295376B2 (en) | Friction stir welding | |
JP3283434B2 (en) | Jig for friction stir welding and friction stir welding method using the same | |
JP2019217514A (en) | Joining method and manufacturing method of composite rolled material | |
JP4014289B2 (en) | Friction stir welding method | |
JPH10249553A (en) | Friction stirring joining method | |
JP2002248582A (en) | Friction stir welding method | |
JP3081825B2 (en) | Friction stir welding | |
JP3947271B2 (en) | T-joint forming method by friction stir welding | |
JP2002035964A (en) | Friction stir welding method and tool for lap joint | |
JP3045700B2 (en) | Friction stir welding method and welding tool used for it | |
JP2003236682A (en) | Method for joining pipe-like members | |
JP3452044B2 (en) | Friction stir tool, joining method using the same, and method for removing fine voids on casting surface | |
JP2002066767A (en) | Hollow structural angle for friction stirring joining | |
JP2018187672A (en) | Joining method | |
JP4723081B2 (en) | Manufacturing method of structure | |
JPH10322984A (en) | Manufacture of motor case | |
JP6777020B2 (en) | Joining method | |
JP4511078B2 (en) | Friction stir welding method and friction stir welding apparatus |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20100623 Year of fee payment: 10 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20100623 Year of fee payment: 10 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20110623 Year of fee payment: 11 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20110623 Year of fee payment: 11 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20120623 Year of fee payment: 12 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20120623 Year of fee payment: 12 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20130623 Year of fee payment: 13 |
|
FPAY | Renewal fee payment (event date is renewal date of database) |
Free format text: PAYMENT UNTIL: 20140623 Year of fee payment: 14 |
|
LAPS | Cancellation because of no payment of annual fees |