JP2002066766A - Joining method for members - Google Patents
Joining method for membersInfo
- Publication number
- JP2002066766A JP2002066766A JP2000263918A JP2000263918A JP2002066766A JP 2002066766 A JP2002066766 A JP 2002066766A JP 2000263918 A JP2000263918 A JP 2000263918A JP 2000263918 A JP2000263918 A JP 2000263918A JP 2002066766 A JP2002066766 A JP 2002066766A
- Authority
- JP
- Japan
- Prior art keywords
- rotating
- joining
- traveling direction
- rotary tool
- heat
- 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.)
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- Pressure Welding/Diffusion-Bonding (AREA)
Abstract
Description
【0001】[0001]
【発明の属する技術分野】本発明は、アルミニウム合金
製の板材やプレス成形体等の部材の接合方法に関する。BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for joining members such as aluminum alloy plates and press-formed bodies.
【0002】[0002]
【従来の技術】従来の接合技術は、板材や予め3次元形
状にプレス成形された材料を突き合わせ、電気抵抗溶接
やアーク溶接、接着剤等によって接合している。2. Description of the Related Art In the conventional joining technique, a plate material or a material previously press-formed into a three-dimensional shape is abutted and joined by electric resistance welding, arc welding, an adhesive or the like.
【0003】また、他の接合技術として、非溶融の状態
で摩擦撹拌する接合方法が特許第2712838号公報
に開示されている。この接合技術は、2つの部材を突き
合わせた接合面に図6に示す回転工具1のプローブと呼
ばれる平面状のショルダ3から突出する突出部2を回転
させながら挿入及び並進させ、接合面近傍の金属組織を
摩擦熱により可塑化させて結合するものである。[0003] As another joining technique, a joining method of friction stirring in a non-molten state is disclosed in Japanese Patent No. 2712838. In this joining technique, a projecting portion 2 projecting from a planar shoulder 3 called a probe of a rotary tool 1 shown in FIG. Tissue is plasticized by frictional heat and bonded.
【0004】[0004]
【発明が解決しようとする課題】上記公報に記載の接合
技術では、以下のように接合が行われる。即ち、 i)回転するプローブ2が接合部材W1、W2の突き合
わせ面に溝を形成しながら進行する。In the joining technique described in the above publication, the joining is performed as follows. That is, i) the rotating probe 2 advances while forming a groove in the abutting surface of the joining members W1 and W2.
【0005】ii)ショルダ3と接合部材W1、W2と
の摩擦熱により、接合部材W1、W2の突き合わせ面が
軟化される。Ii) The abutting surfaces of the joining members W1 and W2 are softened by frictional heat between the shoulder 3 and the joining members W1 and W2.
【0006】iii)軟化された突き合わせ面の金属組
織は、ショルダ3とプローブ2の撹拌により塑性流動
し、プローブ2により形成される溝に充填される。Iii) The metal structure of the softened butted surface plastically flows due to the stirring of the shoulder 3 and the probe 2, and is filled in the groove formed by the probe 2.
【0007】上記i)〜iii)を繰り返しながら、接
合部材W1、W2の突き合わせ面が接合される。[0007] By repeating the above steps i) to iii), the butted surfaces of the joining members W1 and W2 are joined.
【0008】ところが、図4及び図5に示すように、突
き合わされた接合部材W1、W2のうち、回転工具1の
進行方向Vに対して回転工具1の回転方向Rが進行方向
Vに向かう側の部材W1の金属組織は、ショルダ3の回
転方向Rに対する相対移動が大きくなって発熱量が大き
くなり、反対に回転工具1の進行方向Vに対して回転工
具1の回転方向Rが進行方向Vと反対に向かう側の部材
W2の金属組織は、ショルダ3の回転方向Rに対する相
対移動が小さいために発熱量が小さくなる。これによ
り、接合部材W1、W2との間で10℃程度の温度差が
発生し、撹拌性や接合強度の低下を引き起こす。[0010] However, as shown in FIGS. 4 and 5, the rotational direction R of the rotary tool 1 in the advancing direction V with respect to the advancing direction V of the rotary tool 1 in the butted joining members W 1 and W 2. In the metallographic structure of the member W1, the relative movement of the shoulder 3 with respect to the rotation direction R increases, and the amount of generated heat increases, and conversely, the rotation direction R of the rotary tool 1 changes with respect to the travel direction V of the rotary tool 1. In the metal structure of the member W2 on the side opposite to the above, since the relative movement of the shoulder 3 in the rotation direction R is small, the calorific value is small. As a result, a temperature difference of about 10 ° C. is generated between the joining members W1 and W2, causing a reduction in agitation and joining strength.
【0009】本発明は、上記課題に鑑みてなされ、その
目的は、熱の影響による接合強度の低下を抑制できる部
材の接合方法を提供することである。The present invention has been made in view of the above problems, and an object of the present invention is to provide a method for joining members which can suppress a decrease in joining strength due to the influence of heat.
【0010】[0010]
【課題を解決するための手段】上述の課題を解決し、目
的を達成するために、本発明の部材の接合方法は、第1
部材と第2部材とを突き合わせて、この突き合わせた接
合面に沿って回転部材を回転させながら進行させること
により非溶融の状態で摩擦により撹拌させて接合する部
材の接合方法において、前記第1部材と第2部材のう
ち、前記回転部材の進行方向に対して該回転部材の回転
方向が該進行方向に向かう側の部材の発熱量を抑制す
る。In order to solve the above-mentioned problems and achieve the object, a method of joining members according to the present invention comprises:
In the joining method of a member in which a member and a second member are abutted and a rotating member is rotated and advanced along the abutted joint surface to stir by friction in a non-molten state and join the first member, And the second member suppresses the amount of heat generated by the member on the side where the rotating direction of the rotating member is directed toward the advancing direction with respect to the advancing direction of the rotating member.
【0011】また、好ましくは、前記第1部材と第2部
材のうち、前記回転部材の進行方向に対して該回転部材
の回転方向が該進行方向に向かう側の部材を冷却する。Preferably, of the first member and the second member, a member on a side where the rotation direction of the rotating member is in the traveling direction with respect to the traveling direction of the rotating member is cooled.
【0012】本発明の部材の接合方法は、異種の第1部
材と第2部材とを突き合わせて、この突き合わせた接合
面に沿って回転部材を回転させながら進行させることに
より非溶融の状態で摩擦により撹拌させて接合する部材
の接合方法において、前記第1部材と第2部材のうち融
点の高い部材を、前記回転部材の進行方向に対して該回
転部材の回転方向が該進行方向に向かう側に配置する。In the method of joining members according to the present invention, a first member and a second member of different types are brought into contact with each other, and the rotating member is advanced while rotating along the joined surface where the first member and the second member are joined. In the joining method of members to be stirred and joined together, a member having a high melting point of the first member and the second member is placed on a side where the rotating direction of the rotating member is in the traveling direction with respect to the traveling direction of the rotating member. To place.
【0013】本発明の部材の接合方法は、熱処理鋼板と
非熱処理鋼板とを突き合わせて、この突き合わせた接合
面に沿って回転部材を回転させながら進行させることに
より非溶融の状態で摩擦により撹拌させて接合する部材
の接合方法において、前記非熱処理鋼板を、前記回転部
材の進行方向に対して該回転部材の回転方向が該進行方
向に向かう側に配置する。In the method for joining members according to the present invention, a heat-treated steel sheet and a non-heat-treated steel sheet are butted, and a rotating member is rotated and advanced along the joined face to agitate by friction in a non-molten state. In the method for joining members to be joined by joining, the non-heat-treated steel sheet is arranged on a side where the rotation direction of the rotating member is directed toward the traveling direction with respect to the traveling direction of the rotating member.
【0014】[0014]
【発明の効果】以上説明のように、請求項1の発明によ
れば、第1部材と第2部材のうち、前記回転部材の進行
方向に対して回転部材の回転方向が進行方向に向かう側
の部材の発熱量を抑制することにより、熱の影響による
接合強度の低下を抑制できる。As described above, according to the first aspect of the present invention, of the first member and the second member, the rotation direction of the rotating member with respect to the traveling direction of the rotating member is the side facing the traveling direction. By suppressing the calorific value of the member, it is possible to suppress a decrease in bonding strength due to the influence of heat.
【0015】請求項2の発明によれば、第1部材と第2
部材のうち、回転部材の進行方向に対して回転部材の回
転方向が進行方向に向かう側の部材を冷却することによ
り、発熱量の抑制を簡易な方法で行える。According to the second aspect of the present invention, the first member and the second member
By cooling the member on the side where the rotating direction of the rotating member is in the direction of travel with respect to the traveling direction of the rotating member, the amount of generated heat can be suppressed by a simple method.
【0016】請求項3の発明によれば、第1部材と第2
部材のうち融点の高い部材を、回転部材の進行方向に対
して回転部材の回転方向が進行方向に向かう側に配置す
ることにより、部材の配置だけで熱の影響による接合強
度の低下を抑制でき、接合部位ごとに強度を変えたい場
合に好適である。According to the third aspect of the present invention, the first member and the second member
By arranging the member having a high melting point among the members on the side where the rotating direction of the rotating member is directed toward the advancing direction with respect to the advancing direction of the rotating member, it is possible to suppress a decrease in bonding strength due to the influence of heat only by arranging the members. This is suitable when it is desired to change the strength for each joint portion.
【0017】請求項4の発明によれば、非熱処理鋼板
を、回転部材の進行方向に対して回転部材の回転方向が
進行方向に向かう側に配置することにより、部材の配置
だけで熱の影響による接合強度の低下を抑制でき、接合
部位ごとに強度を変えたい場合に好適である。According to the fourth aspect of the present invention, since the non-heat-treated steel sheet is arranged on the side where the rotating direction of the rotating member is directed toward the advancing direction with respect to the advancing direction of the rotating member, the influence of heat is affected only by the arrangement of the members. Therefore, it is possible to suppress a decrease in bonding strength due to the above, and it is suitable when it is desired to change the strength for each bonding portion.
【0018】[0018]
【発明の実施の形態】以下に、本発明の実施の形態につ
いて、添付図面を参照して詳細に説明する。Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
【0019】尚、以下に説明する実施の形態は、本発明
の実現手段としての一例であり、本発明は、その趣旨を
逸脱しない範囲で下記実施形態を修正又は変形したもの
に適用可能である。The embodiment described below is an example as a means for realizing the present invention, and the present invention can be applied to a modification or modification of the following embodiment without departing from the gist thereof. .
【0020】図1は、本発明に係る実施形態の接合方法
を説明する回転工具付近の拡大図である。図2は、図1
の接合部分の部材組織の断面図である。FIG. 1 is an enlarged view of the vicinity of a rotary tool for explaining a joining method according to an embodiment of the present invention. FIG. 2 shows FIG.
It is sectional drawing of the member structure | tissue of the joining part of.
【0021】本実施形態の接合方法は、アルミニウム合
金製の板材や予め3次元形状にプレス成形された材料の
接合に適用され、少なくとも2枚の材料を突き合わせ
て、その突き合わせ面に沿って図6に示す回転工具1の
プローブ2を押し込みながら進行させることにより、第
1及び第2接合部材W1、W2の突き合わせ面の部材組
織を摩擦熱により非溶融で撹拌して接合するものであ
る。The joining method according to the present embodiment is applied to joining of a plate material made of an aluminum alloy and a material which has been previously press-formed into a three-dimensional shape. By pushing the probe 2 of the rotary tool 1 shown in FIG. 1 while pushing it, the member structure of the butted surfaces of the first and second joining members W1 and W2 is agitated and joined in a non-melting manner by frictional heat.
【0022】そして、非溶融で撹拌するので、電気抵抗
溶接等で発生する熱歪み等の問題を解消することができ
る。Since the stirring is performed in a non-melting state, problems such as thermal distortion generated by electric resistance welding or the like can be solved.
【0023】ここで、非溶融で攪拌する状態とは、母材
に含有される各成分或いは共晶化合物の中で最も融点が
低いものよりもさらに低い温度下で摩擦熱により部材組
織を軟化させて攪拌することを意味する。Here, the non-melting and stirring state means that the member structure is softened by frictional heat at a temperature lower than the lowest melting point among the components or eutectic compounds contained in the base material. Means to stir.
【0024】図1に示すように、摩擦撹拌による接合方
法は、少なくとも2枚の接合部材W1、W2を突き合わ
せ、ショルダ3に突出部2を有する円筒状の回転工具1
を、その軸心周りに回転させながら、突出部2を接合部
材W1、W2の突き合わせ面に割り込ませると同時に、
ショルダ3の下端面で当該突き合わせ面に直交する接合
部材W1、W2の上面を押圧して、突き合わせた第1及
び第2接合部材W1、W2を非溶融の状態で摩擦により
撹拌させて、材料同士を接合する。As shown in FIG. 1, in the joining method by friction stirring, a cylindrical rotary tool 1 having at least two joining members W1 and W2 butted together and having a projection 3 on a shoulder 3 is provided.
At the same time that the protrusion 2 is cut into the abutting surfaces of the joining members W1 and W2 while rotating about the axis thereof.
The lower end surface of the shoulder 3 presses the upper surfaces of the joining members W1 and W2 orthogonal to the abutting surface, and the abutted first and second joining members W1 and W2 are agitated by friction in a non-molten state, and the materials are joined together. To join.
【0025】また、第1及び第2接合部材W1、W2の
突き合わせ面を挟むように回転工具1のショルダ3に対
向するよう受け部材4が配置されている。受け部材4の
外径は、回転工具1の外径以上に設計されている。A receiving member 4 is arranged so as to face the shoulder 3 of the rotary tool 1 so as to sandwich the butted surfaces of the first and second joining members W1 and W2. The outer diameter of the receiving member 4 is designed to be larger than the outer diameter of the rotary tool 1.
【0026】図2に示すように、回転工具1は直径φ1
が10〜15mm程度、突出部2は直径φ2が5〜7.
5mm程度であり、接合部分は直径φ3が8〜9mm程
度となる。As shown in FIG. 2, the rotary tool 1 has a diameter of φ1.
Is about 10 to 15 mm, and the diameter 2 of the protrusion 2 is 5 to 7 mm.
The diameter φ3 of the joint portion is about 8 to 9 mm.
【0027】回転工具1及び受け部材4は、接合部材よ
りも硬度の高い鋼材(超硬合金等)で形成された非摩耗
型工具であるが、接合材料は回転工具1より軟質の材質
であれば、アルミニウム合金に限定されない。The rotary tool 1 and the receiving member 4 are non-wear type tools made of a steel material (such as a cemented carbide) having a higher hardness than the joining member, but the joining material may be softer than the rotating tool 1. The invention is not limited to aluminum alloys.
【0028】また、突出部長さX1は接合部分深さX2
の80〜90%に設定され、接合部分深さX2は突出部
長さX1の1.1〜1.2倍となる。接合部分深さX2
は突出部長さX1に比例(ピン長さの1.1〜1.2
倍)して大きくなる。The length X1 of the protruding portion is equal to the depth X2 of the joining portion.
And the junction portion depth X2 is 1.1 to 1.2 times the protruding portion length X1. Junction depth X2
Is proportional to the length X1 of the protrusion (1.1 to 1.2 of the pin length).
Times) and increase.
【0029】回転工具1は、後述する多関節ロボット1
0のアーム又はマシニングセンタに回転可能に取り付ら
れ、材料が複雑な3次元形状の場合でも接合できるよう
構成されている。The rotary tool 1 is an articulated robot 1 described later.
It is rotatably attached to the 0 arm or the machining center, and is configured to be able to join even if the material has a complicated three-dimensional shape.
【0030】図3は、回転工具を保持及び駆動する多関
節ロボットの概略図である。FIG. 3 is a schematic diagram of an articulated robot that holds and drives a rotary tool.
【0031】図3に示すように、多関節ロボット10
は、ベース11に設けられた関節12に連結されてy軸
中心に揺動すると共に、関節13でz軸中心に回転する
第1アーム14と、関節15を介して第1アーム14に
連結されてy軸中心に揺動すると共に、関節16でx軸
中心に回転する第2アーム17と、関節18を介して第
2アーム17に連結されてy軸中心に揺動する第3アー
ム19とを有する。As shown in FIG. 3, the articulated robot 10
Is connected to a joint 12 provided on a base 11 and swings about a y-axis, and is rotated by a joint 13 about a z-axis. The first arm 14 is connected to a first arm 14 via a joint 15. A second arm 17 swinging about the y-axis and rotating about the x-axis at a joint 16, and a third arm 19 connected to the second arm 17 via a joint 18 and swinging about the y-axis. Having.
【0032】第3アーム19は、回転工具1が回転可能
に取り付けられると共に、回転工具1を回転駆動するモ
ータ20と、回転工具1のショルダ3に対向するよう配
置される受け部材4とを備える。回転工具1のショルダ
3と受け部材4のショルダとの間隔はアクチュエータ2
2により可変となっており、接合時の材料に対する押圧
力を調整可能となっている。The third arm 19 includes a motor 20 to which the rotary tool 1 is rotatably mounted, a motor 20 for driving the rotary tool 1 to rotate, and a receiving member 4 arranged to face the shoulder 3 of the rotary tool 1. . The distance between the shoulder 3 of the rotary tool 1 and the shoulder of the receiving member 4 is
2, the pressing force against the material at the time of joining can be adjusted.
【0033】多関節ロボット10の各アーム、モータ、
アクチュエータの動作は、予めティーチングされて制御
部30がコントロールする。Each arm, motor,
The operation of the actuator is previously taught and controlled by the control unit 30.
【0034】回転工具1の接合部材に対する押圧力は、
材料の板厚等に基づいて設定される。The pressing force of the rotary tool 1 on the joining member is
It is set based on the thickness of the material.
【0035】本実施形態では、第1接合部材W1として
JIS規格に基づく1000系、3000系、5000
系等の非熱処理型アルミニウム合金鋼板、第2接合部材
W2として2000系、4000系、6000系、70
00系、AC4C等の熱処理型アルミニウム合金鋼板を
適用している。そして、回転工具1の進行方向Vに対し
て回転工具1の回転方向Rが進行方向Vに向かう側であ
る部材として第2接合部材W2に比して発熱量の小さい
非熱処理型アルミニウム合金鋼板を配置し、回転工具1
の進行方向Vに対して回転工具1の回転方向Rが進行方
向Vの反対に向かう側である部材として第1接合部材W
1に比して発熱量の大きい熱処理型アルミニウム合金鋼
板を配置している。In this embodiment, as the first joining member W1, 1000 series, 3000 series, 5000 series based on the JIS standard.
Non-heat treatment type aluminum alloy steel sheet, such as 2000 series, 4000 series, 6000 series, 70
A heat treatment type aluminum alloy steel sheet such as 00 series or AC4C is applied. Then, a non-heat-treated aluminum alloy steel sheet having a smaller calorific value than the second joining member W2 is used as a member in which the rotation direction R of the rotary tool 1 is on the side of the progress direction V with respect to the travel direction V of the rotary tool 1. Place and rotate tool 1
The first joining member W is a member in which the rotational direction R of the rotary tool 1 is on the side opposite to the traveling direction V with respect to the traveling direction V of
A heat-treatable aluminum alloy steel sheet having a larger calorific value than that of No. 1 is arranged.
【0036】このように配置して接合することにより、
第1及び第2接合部材W1、W2のうち、回転工具1の
進行方向Vに対して回転工具1の回転方向Rが進行方向
Vに向かう側の部材W1の発熱が抑えられ、温度差に起
因する撹拌性や接合強度の低下を抑制することができ
る。By arranging and joining in this way,
Of the first and second joining members W1 and W2, the heat generation of the member W1 on the side where the rotation direction R of the rotary tool 1 is in the direction of travel V with respect to the direction of travel V of the rotary tool 1 is suppressed, resulting from the temperature difference. This can suppress the lowering of the agitation property and the joining strength.
【0037】尚、発熱量を抑制するために、回転工具1
の進行方向Vに対して回転工具1の回転方向Rが進行方
向Vに向かう側の第1接合部材を冷却することもでき、
この場合は、同種のアルミニウム合金や鋳物とアルミニ
ウム合金等でも適用できる。In order to suppress the heat generation, the rotary tool 1
It is also possible to cool the first joining member on the side where the rotating direction R of the rotary tool 1 is directed toward the traveling direction V with respect to the traveling direction V of
In this case, the same type of aluminum alloy or a casting and an aluminum alloy can be applied.
【0038】また、融点の異なるプラスチック材料の接
合にも適用でき、この場合は、第1接合部材と第2接合
部材のうち融点の高い部材を、回転工具1の進行方向V
に対して回転工具1の回転方向Rが進行方向Vに向かう
側に配置する。Also, the present invention can be applied to the joining of plastic materials having different melting points. In this case, the member having the higher melting point among the first joining member and the second joining member is connected to the traveling direction V of the rotary tool 1.
, The rotation direction R of the rotary tool 1 is disposed on the side facing the traveling direction V.
【0039】また、接合強度が要求強度を満たす回転工
具1の回転速度は、1000〜2500rpmが好まし
く、回転速度が1000rpmより遅いと撹拌が不十分
で接合強度は低くなり、逆に2500rpmより速い
と、撹拌されるべき部材組織が空回りして撹拌されない
ために、接合強度は低くなる。 [適用材料]本実施形態の接合方法は、多数の部品を接
合した後、プレスすることにより1つの部品を成形する
プレス成形に適用でき、自動車のサイドフレームやドア
やリフトゲート内部の接合において、例えば、サイドフ
レームの部位ごとに強度を変えたい場合に好適である。The rotational speed of the rotary tool 1 whose joining strength satisfies the required strength is preferably 1000 to 2500 rpm. If the rotating speed is lower than 1000 rpm, the stirring is insufficient due to insufficient agitation, and if the rotating speed is higher than 2500 rpm. Since the member structure to be agitated does not rotate and is not agitated, the joining strength is reduced. [Applied Material] The joining method of the present embodiment can be applied to press molding in which a large number of parts are joined and then pressed to form a single part. In the joining inside a side frame, a door or a lift gate of an automobile, For example, it is suitable for changing the strength for each part of the side frame.
【図1】本発明に係る実施形態の接合方法を説明する回
転工具付近の拡大図である。FIG. 1 is an enlarged view near a rotary tool for explaining a joining method according to an embodiment of the present invention.
【図2】図1の接合部分の部材組織の断面図である。FIG. 2 is a cross-sectional view of a member structure of a joining portion in FIG.
【図3】回転工具を保持及び駆動する多関節ロボットの
概略図である。FIG. 3 is a schematic diagram of an articulated robot that holds and drives a rotary tool.
【図4】本実施形態の部材の接合方法を説明する図であ
る。FIG. 4 is a diagram illustrating a method of joining members according to the present embodiment.
【図5】プローブ通過直後の接合部分の部材組織の流動
状態を示す断面図である。FIG. 5 is a cross-sectional view showing a flow state of a member tissue at a joining portion immediately after passing through a probe.
【図6】本実施形態の接合方法に用いる回転工具の斜視
図である。FIG. 6 is a perspective view of a rotary tool used in the joining method according to the embodiment.
1 回転工具 2 突出部 3 ショルダ 4 受け部材 10 多関節ロボット W1、W2 接合部材 DESCRIPTION OF SYMBOLS 1 Rotary tool 2 Projection part 3 Shoulder 4 Receiving member 10 Articulated robot W1, W2 Joining member
Claims (4)
この突き合わせた接合面に沿って回転部材を回転させな
がら進行させることにより非溶融の状態で摩擦により撹
拌させて接合する部材の接合方法において、 前記第1部材と第2部材のうち、前記回転部材の進行方
向に対して該回転部材の回転方向が該進行方向に向かう
側の部材の発熱量を抑制することを特徴とする部材の接
合方法。1. A first member and a second member are abutted against each other,
In the joining method of joining members by stirring and agitating by friction in a non-molten state by rotating and advancing a rotating member along the joined joining surface, the rotating member among the first member and the second member A method of joining members, wherein the amount of heat generated by a member whose rotational direction is directed toward the traveling direction with respect to the traveling direction of the member is suppressed.
転部材の進行方向に対して該回転部材の回転方向が該進
行方向に向かう側の部材を冷却することを特徴とする請
求項1に記載の部材の接合方法。2. The cooling device according to claim 1, wherein, of the first member and the second member, a member on a side where the rotating direction of the rotating member is in the advancing direction with respect to the advancing direction of the rotating member is cooled. The method for joining members according to claim 1.
せて、この突き合わせた接合面に沿って回転部材を回転
させながら進行させることにより非溶融の状態で摩擦に
より撹拌させて接合する部材の接合方法において、 前記第1部材と第2部材のうち融点の高い部材を、前記
回転部材の進行方向に対して該回転部材の回転方向が該
進行方向に向かう側に配置することを特徴とする部材の
接合方法。3. A member to join a first member and a second member of different types by agitating by friction in a non-molten state by advancing while rotating a rotating member along the abutted joint surface. In the joining method, the member having a higher melting point among the first member and the second member is disposed on a side where the rotating direction of the rotating member is directed toward the traveling direction with respect to the traveling direction of the rotating member. The method of joining members.
せて、この突き合わせた接合面に沿って回転部材を回転
させながら進行させることにより非溶融の状態で摩擦に
より撹拌させて接合する部材の接合方法において、 前記非熱処理鋼板を、前記回転部材の進行方向に対して
該回転部材の回転方向が該進行方向に向かう側に配置す
ることを特徴とする部材の接合方法。4. A method for joining members to be joined by bringing a heat-treated steel sheet and a non-heat-treated steel sheet into contact with each other and rotating and rotating a rotating member along the joined joining surface to stir by friction in a non-molten state. The method for joining members, wherein the non-heat-treated steel sheet is disposed on a side where a rotation direction of the rotating member is directed to the traveling direction with respect to a traveling direction of the rotating member.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000263918A JP2002066766A (en) | 2000-08-31 | 2000-08-31 | Joining method for members |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2000263918A JP2002066766A (en) | 2000-08-31 | 2000-08-31 | Joining method for members |
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Publication Number | Publication Date |
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JP2002066766A true JP2002066766A (en) | 2002-03-05 |
Family
ID=18751405
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012173034A1 (en) * | 2011-06-14 | 2012-12-20 | 株式会社日立製作所 | Friction stir method, stirring implement and welding member |
DE102014205003A1 (en) | 2013-03-21 | 2014-09-25 | Honda Motor Co., Ltd. | With a membrane electrode assembly equipped plastic frame of a fuel cell |
WO2019038969A1 (en) * | 2017-08-24 | 2019-02-28 | 日本軽金属株式会社 | Liquid cooling jacket manufacturing method |
-
2000
- 2000-08-31 JP JP2000263918A patent/JP2002066766A/en active Pending
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2012173034A1 (en) * | 2011-06-14 | 2012-12-20 | 株式会社日立製作所 | Friction stir method, stirring implement and welding member |
DE102014205003A1 (en) | 2013-03-21 | 2014-09-25 | Honda Motor Co., Ltd. | With a membrane electrode assembly equipped plastic frame of a fuel cell |
WO2019038969A1 (en) * | 2017-08-24 | 2019-02-28 | 日本軽金属株式会社 | Liquid cooling jacket manufacturing method |
JP2019038008A (en) * | 2017-08-24 | 2019-03-14 | 日本軽金属株式会社 | Manufacturing method of liquid-cooled jacket |
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