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JP3225089B2 - Chrome plated steel plate for welding cans - Google Patents
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JP3225089B2 - Chrome plated steel plate for welding cans - Google Patents

Chrome plated steel plate for welding cans

Info

Publication number
JP3225089B2
JP3225089B2 JP15254292A JP15254292A JP3225089B2 JP 3225089 B2 JP3225089 B2 JP 3225089B2 JP 15254292 A JP15254292 A JP 15254292A JP 15254292 A JP15254292 A JP 15254292A JP 3225089 B2 JP3225089 B2 JP 3225089B2
Authority
JP
Japan
Prior art keywords
steel sheet
welding
plated steel
layer
present
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
Application number
JP15254292A
Other languages
Japanese (ja)
Other versions
JPH05346000A (en
Inventor
地 利 裕 菊
方 一 緒
戸 延 行 森
英 雄 久々湊
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.)
JFE Steel Corp
Original Assignee
JFE Steel 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 JFE Steel Corp filed Critical JFE Steel Corp
Priority to JP15254292A priority Critical patent/JP3225089B2/en
Publication of JPH05346000A publication Critical patent/JPH05346000A/en
Application granted granted Critical
Publication of JP3225089B2 publication Critical patent/JP3225089B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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  • Other Surface Treatments For Metallic Materials (AREA)

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、容器として使用される
金属缶の缶胴を溶接により製造するための鋼板に関する
ものである。より詳しくは缶胴がCrめっき鋼板の溶接
により成型される時に、缶内容物および製缶環境の金属
粉汚染の原因となり、かつ溶接部補修塗装で缶体に付与
される有機皮膜の密着性を阻害する要因となるような、
溶接のための鋼板の機械的研削あるいは化学的処理など
の溶接前処理を必要とせず、溶接部の必要十分な強度
と、優れた塗装密着性ならびに耐食性を持ち、なおかつ
生産性が高く、経済性に優れた缶体を得られる鋼板に関
するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a steel plate for manufacturing a can body of a metal can used as a container by welding. More specifically, when the can body is formed by welding a Cr-plated steel sheet, it causes metal powder contamination of the contents of the can and the can-making environment, and the adhesion of the organic film applied to the can body by the welding repair painting. It may be a hindrance factor,
It does not require pre-welding treatment such as mechanical grinding or chemical treatment of steel sheets for welding, has necessary and sufficient strength of welds, excellent paint adhesion and corrosion resistance, and has high productivity and economical efficiency The present invention relates to a steel sheet capable of obtaining a can body excellent in quality.

【0002】[0002]

【従来の技術】油脂等の容器に用いられるガロン缶は、
Crめっき鋼板を用いて作られるが、従来は、Crめっ
き鋼板はそのままでは、一般に用いられるマッシュシー
ム型缶胴溶接機(以下「溶接機」とする)によって溶接
できなかった。これは、「材料とプロセス」第4巻第1
616頁に発明者らが述べたように、Crめっき鋼板の
表面が高電気抵抗性を示すCr水和酸化物により覆われ
ているために、交流電源シーム溶接機では連続溶接が困
難であるためである。
2. Description of the Related Art Gallon cans used for containers such as oils and fats are:
Although it is made using a Cr-plated steel sheet, conventionally, the Cr-plated steel sheet cannot be welded as it is by a generally used mash seam type can body welding machine (hereinafter referred to as “welding machine”). This is "Materials and Process" Vol.
As described by the inventors on page 616, since the surface of the Cr-plated steel sheet is covered with Cr hydrated oxide exhibiting high electrical resistance, continuous welding is difficult with an AC power seam welding machine. It is.

【0003】そのため、従来Crめっき鋼板を溶接する
に際しては、溶接作業の直前に溶接該当部の表面を研削
除去する方法が一般的に用いられてきた。しかしこの方
法によると、研削粉による作業環境の悪化や、製品であ
る缶内部への研削粉の混入などにより、缶内容物を損う
等の懸念があった。更に、研削部分の幅制御上の問題な
どから、多くの場合、研削後に研削部分のいわゆる耳切
りにより、鋼板の一部を切断除去しなければならなかっ
た。これは工程増加になる他、材料歩留りにも直接多大
な悪影響を及ぼしていた。
For this reason, conventionally, when welding a Cr-plated steel sheet, a method of grinding and removing the surface of the portion to be welded immediately before the welding operation has been generally used. However, according to this method, there is a concern that the working environment is deteriorated by the grinding powder, and the content of the can is damaged due to the mixing of the grinding powder into the product can. Further, due to problems in controlling the width of the ground portion, in many cases, a part of the steel plate has to be cut and removed by so-called edge cutting after the grinding. This not only increases the number of steps but also directly has a great adverse effect on the material yield.

【0004】また、研削された部分は、下地鉄が露出
し、あるいはさらにその下地鉄が部分的に酸化された状
態になり、その後の補修塗装における塗膜の密着性は、
Crめっき鋼板ほど良好ではなくなる。そのため、補修
塗装を行った場合にも、塗膜の剥離、塗膜下腐食などの
問題を常に内包していた。また、当然ながら、補修塗装
を行わない場合には、研削部は腐食が極めて速やかに進
行した。
[0004] In addition, in the ground portion, the base iron is exposed or the base iron is partially oxidized, and the adhesion of the coating film in the subsequent repair coating is as follows.
It is not as good as a Cr-plated steel sheet. Therefore, even when the repair coating is performed, problems such as peeling of the coating film and corrosion under the coating film are always included. In addition, as a matter of course, when the repair coating was not performed, the corrosion of the ground portion progressed very quickly.

【0005】Crめっき鋼板に溶接性を付与させる試み
は、Crめっき層を粒状に析出させたり、Snめっき層
をCrめっき鋼板上に析出させる等の方法が公知であ
る。
[0005] As an attempt to impart weldability to a Cr-plated steel sheet, there are known methods such as depositing a Cr-plated layer in a granular form and depositing an Sn-plated layer on a Cr-plated steel sheet.

【0006】粒状Cr層を用いる溶接性の改善方法は、
発明者らの提案、例えば特開平3−229897号等に
代表されるもので、この提案はCrめっき工程のみから
成る点、即ち異種金属による別処理を必要としない点
が、コスト的に優れている。しかし、色調を通常のCr
めっき鋼板と同一にするためには、上記提案に示される
ように、電気めっき条件を管理しなければならないとい
う制約があった。
A method for improving weldability using a granular Cr layer is as follows.
The proposal of the inventors, for example, represented by Japanese Patent Application Laid-Open No. Hei 3-229897, is superior in terms of cost in that it consists only of a Cr plating step, that is, that it does not require a separate treatment with a dissimilar metal. I have. However, when the color tone is
In order to make the same as a plated steel sheet, there was a restriction that the electroplating conditions had to be managed as shown in the above proposal.

【0007】またCrめっき上にSnを析出させる場合
はCr水和酸化物層除去のために特殊な処理を必要とす
る上に、Snめっき層上の塗膜密着性が低下しやすい等
の操業上、品質管理上の問題があり、一般にクリア塗装
で用いられる事の多いガロン缶用途では広く用いられて
いない。
In addition, when Sn is deposited on the Cr plating, a special treatment is required to remove the Cr hydrated oxide layer, and the adhesion of the coating film on the Sn plating layer is likely to decrease. In addition, there is a problem in quality control, and it is not widely used in gallon cans that are often used for clear coating.

【0008】[0008]

【発明が解決しようとする課題】本発明は、上記に述べ
た従来のCrめっき鋼板を用いた溶接による缶体成形の
方法の問題点、具体的には研削粉の飛散による製缶環境
および缶内容物の汚染などの問題点を解消し、溶接補修
塗装部の塗膜密着性が高く、信頼性の高い缶体を得られ
る缶胴を製造し得る鋼板を提供することを目的とする。
SUMMARY OF THE INVENTION The present invention relates to the problems of the above-described conventional method of forming a can body by welding using a Cr-plated steel sheet, and more specifically, the can-making environment and the can An object of the present invention is to provide a steel sheet which can solve problems such as contamination of contents, has high adhesion of a coating film in a weld repair coating portion, and can manufacture a can body capable of obtaining a highly reliable can body.

【0009】[0009]

【課題を解決するための手段】発明者らは、Crめっき
鋼板を材料として、缶胴を溶接で成型される缶体製造方
法について、通常の溶接部事前研削による溶接法の問題
点を解決すべく、鋼板の表面粗度とマッシュシーム溶接
性との関係を研究し、本発明をなすに至った。
Means for Solving the Problems The inventors of the present invention have solved the problem of a conventional welding method by pre-grinding a welded portion in a method for manufacturing a can body in which a can body is formed by welding a Cr-plated steel sheet as a material. Therefore, the present inventors have studied the relationship between the surface roughness of a steel sheet and the mash seam weldability, and have accomplished the present invention.

【0010】即ち、炭素含有量、Crめっき層の付着量
と共に、従来管理されていなかった1μmよりも小さい
レベルでの表面粗さを管理した鋼板を用いることによ
り、健全な溶接部外観と十分な溶接強度、並びに優れた
塗膜密着性と塗装後耐食性を兼備した缶体を得ることが
出来ることを見出した。
That is, by using a steel sheet whose surface roughness is controlled at a level smaller than 1 μm, which has not been conventionally controlled, together with the carbon content and the adhesion amount of the Cr plating layer, it is possible to obtain a sound welded appearance and a sufficient It has been found that a can body having both welding strength, excellent coating film adhesion and corrosion resistance after painting can be obtained.

【0011】かくして本発明によれば鋼板の炭素含有率
が0.2重量%以下であり、また鋼板表面に300mg/m
2 以下の金属クロム層を持ち、さらにその上に金属クロ
ム量換算で30mg/m2 以下のクロム水和酸化物層を持
ち、かつ少なくとも鋼板の片面について、該Cr水和酸
化物層のカットオフ波長1μmでの中心線平均粗さRa
5〜100nmであること特徴とする、溶接缶用C
rめっき鋼板が提供され上記目的が達成される。
Thus, according to the present invention, the carbon content of the steel sheet is 0.2% by weight or less, and 300 mg / m
2 or less, further having a chromium hydrated oxide layer of 30 mg / m 2 or less in terms of the amount of chromium metal, and at least one side of the steel plate, a cutoff of the Cr hydrated oxide layer Center line average roughness Ra at a wavelength of 1 μm
Characterized in that but is 5 to 100 nm, C for welded cans
The above object is achieved by providing an r-plated steel sheet.

【0012】Crめっき鋼板を用いて、マッシュシーム
溶接機により、ぶりきと同様の缶胴溶接を行おうとする
と、材料界面での接合が起き始める最低溶接電流の値
と、溶接部が溶融飛散して急冷される事でできる髭状突
起の溶接欠陥いわゆるスプラッシュが発生する溶接上限
電流とが極めて近接あるいは逆転し、健全な溶接部を得
ることが極めて困難であった。この溶接電流最大値と最
小値の差が、溶接可能電流範囲(ACR)であるが、C
rめっき層が粒状析出していない、従来のCrめっき鋼
板ではこれが非常に小さいかあるいは全く得られず、非
常に不安定であるため、実用にはならなかった。また、
Crめっき層が粒状析出しているものでは、その金属C
rおよびCr水和酸化物付着量及び粒状析出金属Cr層
の数値範囲およびその製造方法が極めて限定されたもの
になっていた。
When attempting to perform can body welding in the same manner as tinplate by using a mash seam welding machine using a Cr-plated steel sheet, the value of the minimum welding current at which joining at the material interface begins to occur, and the weld portion is melted and scattered. The welding upper limit current, at which the so-called splash occurs, is very close to or reverse to the welding defect of the whisker-like projection caused by rapid cooling, and it is extremely difficult to obtain a sound weld. The difference between the maximum value and the minimum value of the welding current is the weldable current range (ACR).
The conventional Cr-plated steel sheet, in which the r-plated layer does not have a granular precipitate, is not practical because it is very small or cannot be obtained at all and is very unstable. Also,
If the Cr plating layer has a granular precipitate, the metal C
The numerical value ranges of the r and Cr hydrated oxide deposits and the granular precipitated metal Cr layer and the production method thereof have been extremely limited.

【0013】マッシュシーム溶接は、その溶接のための
熱源として、材料界面の電気抵抗によるジュール発熱を
利用しており、それゆえ、ある材料のACRが非常に狭
い場合は、溶接工程において入荷ロット毎に溶接電流な
どの溶接条件を変更せねばならず、その間は生産設備を
止めなければならないため、事実上商業生産に用いるこ
とはできない。これがACRの広い材料が求られる所以
である。ここで、材料のACRは、溶接される材料相互
の界面接触抵抗および、溶接重ね合せ部のオーバーラッ
プ幅の精度によって変化する。
[0013] Mash seam welding utilizes Joule heat generated by electric resistance at a material interface as a heat source for the welding. Therefore, when the ACR of a material is very narrow, it is necessary to carry out each welding lot in the welding process. Since welding conditions such as welding current have to be changed during that time, production equipment must be stopped during that time, so that it cannot practically be used for commercial production. This is why a material with a wide ACR is required. Here, the ACR of the material changes depending on the interface contact resistance between the materials to be welded and the accuracy of the overlap width of the welded overlapped portion.

【0014】ACR判定時に溶接電流上限の指標とな
る、マッシュシーム溶接における最も重要な溶接欠陥で
あるスプラッシュは、溶接電流による発熱が過大にな
り、溶接界面近傍の材料が溶融し、その際、主に電極加
圧力等によって、溶融金属が外部に押出され、急冷凝固
する事により生成する。Crめっき鋼板の表面には、そ
のめっき反応の特性上、常に電気抵抗の高いCr水和酸
化物層が存在するために、ぶりき等に比べて界面接触抵
抗が高くなり、投入溶接電流当りの発熱量は大きくな
る。この事は、Crめっき鋼板においては、ぶりきに比
較して小さな電流値の変化で大きな発生熱量の変化が起
ることを意味する。これに加えて、Crめっき鋼板の表
面はぶりき等Snめっきの鋼板に比べて摩擦が大きく、
治具との滑り性が悪い。即ち溶接に先立つ筒型成型時
に、治具とのひっかかり等の影響でオーバーラップの精
度にばらつきが出やすい。
Splash, which is the most important welding defect in mash seam welding, which is an index of the upper limit of welding current at the time of ACR determination, generates excessive heat due to welding current, and the material near the welding interface melts. The molten metal is extruded to the outside by an electrode pressing force or the like, and is produced by rapid solidification. Due to the characteristics of the plating reaction, the surface of the Cr-plated steel sheet always has a Cr hydrated oxide layer having a high electric resistance, so that the interface contact resistance becomes higher than that of tinplate, etc. The calorific value increases. This means that in a Cr-plated steel sheet, a large change in the amount of generated heat occurs with a small change in the current value as compared with the tinplate. In addition, the surface of the Cr-plated steel sheet has higher friction than Sn-plated steel sheet,
Poor sliding with jig. That is, at the time of cylindrical molding prior to welding, the accuracy of the overlap tends to vary due to the influence of the jig and the like.

【0015】発明者らは、このCrめっき鋼板特有の鋼
板の微細構造による接触抵抗の変化と、オーバーラップ
幅の不安定性について鋭意研究し、鋼板表面のCrめっ
き層の付着量及びその極微細な表面粗度を一定の範囲に
管理する事により、材料間の界面および材料と電極間の
界面の接触抵抗値を連続溶接に好適な状態に安定させ、
かつ大幅にオーバーラップ幅の安定性を向上させ得る事
を見出し、実用的に溶接性が十分に確保されるような、
それらの数値の範囲を限定することに成功した。
The present inventors have conducted intensive studies on the change in contact resistance due to the microstructure of the steel sheet peculiar to the Cr-plated steel sheet and the instability of the overlap width. By controlling the surface roughness within a certain range, the contact resistance of the interface between the materials and the interface between the materials and the electrodes is stabilized in a state suitable for continuous welding,
And found that the stability of the overlap width can be greatly improved, and practically ensuring sufficient weldability.
We succeeded in limiting the range of those numbers.

【0016】[0016]

【構成】以下に、本発明の構成を詳述する。The structure of the present invention will be described below in detail.

【0017】本発明の鋼板の炭素含有率は0.20重量
%以下、好ましくは0.05重量%以下の低炭素鋼ある
いは極低炭素鋼(C<0.01重量%)とする。これ
は、この領域が缶用材料として加工性と製品の強度との
バランスが取りやすいからであり、Ys,Yp,r,Δ
r等、溶接缶胴成型に必要な機械的特性を安定して得る
ことができる領域である。
The carbon content of the steel sheet of the present invention is low carbon steel or ultra low carbon steel (C <0.01% by weight) of 0.20% by weight or less, preferably 0.05% by weight or less. This is because this region easily balances workability and product strength as a material for cans, and Ys, Yp, r, Δ
It is an area where the mechanical properties required for welding can body molding, such as r, can be stably obtained.

【0018】また、本発明においては、めっき鋼板原板
として、所定のCrめっきを施すことが可能であるなら
ば、例えば鋼板最表面にNiめっきを施した後に熱拡散
処理によりNi拡散層を形成させたような表面調整原板
を用いることもできるし、同様にCrめっき層と原板の
間に、Ni,Zn,Sn,Fe等の金属あるいはこれら
金属の合金めっきや金属とP等との合金めっきを単層あ
るいは複数層挿入する事もできる。
In the present invention, if it is possible to apply a predetermined Cr plating as a plated steel sheet, for example, a Ni diffusion layer is formed by heat diffusion treatment after applying Ni plating on the outermost surface of the steel sheet. Such a surface-adjustment original plate can be used, and similarly, a metal such as Ni, Zn, Sn, Fe, or an alloy plating of these metals, or an alloy plating of a metal and P or the like can be simply applied between the Cr plating layer and the original plate. Layers or multiple layers can be inserted.

【0019】本発明で鋼板表面に300mg/m2 以下、好
ましくは30〜200mg/m2 の目付量の金属Cr層を、
更にその上に金属Cr換算で30mg/m2 以下、好ましく
は2〜20mg/m2 の付着量のCr水和酸化物層を設ける
のは、従来Crめっき鋼板製缶が用いられてきた用途に
ついて、十分な塗膜密着性及び耐食性を得るためであ
る。
The surface of the steel sheet in the present invention 300 mg / m 2 or less, preferably the basis weight of the metal Cr layer of 30 to 200 mg / m 2,
Further 30 mg / m 2 or less of metal Cr terms thereon, preferably for the provision of the Cr hydrated oxide layer deposition amount of 2 to 20 mg / m 2 is conventionally Cr-plated steel cans have been used applications In order to obtain sufficient coating film adhesion and corrosion resistance.

【0020】本発明において、Crめっきを施された鋼
板最表層の表面粗度について、カットオフ波長1μmで
の中心線平均粗さRaが5nm以上、好ましくは10〜
100nmである。この領域において、Crめっき鋼を
材料として缶胴を形成する際に、溶接部に先立つ被溶接
部分の研削などの前処理を必要とせず、溶接部のスプラ
ッシュ発生が軽微で、美麗かつ強固な溶接部を形成で
き、かつ十分な強度が得られる。
In the present invention, regarding the surface roughness of the outermost layer of the steel plate coated with Cr, the center line average roughness Ra at a cutoff wavelength of 1 μm is 5 nm or more, preferably 10 to 10 nm.
100 nm. In this area, when forming the can body using Cr-plated steel as a material, there is no need for pre-treatment such as grinding of the welded part prior to the welded part. A part can be formed and sufficient strength can be obtained.

【0021】これは、この領域で溶接機でのCrめっき
鋼板の治具との滑り性が安定し、かつ接触抵抗値が、マ
ッシュシーム溶接に好適な範囲に入るためと推定され
る。
This is presumably because in this region, the slipperiness of the Cr-plated steel sheet with the jig in the welding machine is stable, and the contact resistance value falls within a range suitable for mash seam welding.

【0022】このように本発明においては、接触抵抗と
ともにACRを決定する重要因子としてのオーバーラッ
プの安定性にCrめっき鋼板の表面微細構造が影響を及
ぼす事実の発見に基づき、その表面微細構造を一般的な
粗さパラメータにより限定するものである。
As described above, in the present invention, based on the discovery that the surface microstructure of the Cr-plated steel sheet has an influence on the stability of the overlap as an important factor determining the ACR as well as the contact resistance, the surface microstructure was It is limited by general roughness parameters.

【0023】本発明において規定する粗さパラメータの
測定方法としては、3次元形状測定用走査型電子顕微鏡
や走査型トンネル顕微鏡(STM)、原子間力顕微鏡
(AFM)等の走査型プローブ顕微鏡システム(SP
M)による方法が利用できる。具体的には鋼板の表面上
の任意の5点につき、カットオフ波長1μmでRaを測
定し、その測定値がいずれも5nm以上であれば良い。
As a method for measuring the roughness parameter specified in the present invention, a scanning probe microscope system (such as a scanning electron microscope for three-dimensional shape measurement, a scanning tunneling microscope (STM), and an atomic force microscope (AFM)) is used. SP
The method according to M) can be used. Specifically, Ra is measured at an arbitrary five points on the surface of the steel sheet at a cutoff wavelength of 1 μm, and the measured values may be all 5 nm or more.

【0024】このような粗度を有する鋼板は、冷延鋼板
を焼鈍した後の調質圧延ロールの表面粗度をショットブ
ラストの粒度管理やレーザー表面加工パターンの管理に
より一定範囲内に管理した上で、クロムめっき液中のク
ロム酸濃度および硫酸等の助剤濃度の制御、電解操作に
おける電流密度、電解電流波形、陰極陽極電解パターン
等の制御を行うなどの方法により容易に製造することが
できる。
For the steel sheet having such a roughness, the surface roughness of the temper roll after annealing the cold-rolled steel sheet is controlled within a certain range by controlling the grain size of shot blast and the laser surface processing pattern. It can be easily manufactured by controlling the chromic acid concentration and the concentration of auxiliary agents such as sulfuric acid in the chromium plating solution, and controlling the current density, electrolysis current waveform, cathode anode electrolysis pattern, etc. in the electrolysis operation. .

【0025】本発明における材料としてのCrめっき鋼
板は、その缶体としての用途に合致した性能を満たすも
のであれば、Crめっき層と下地鋼板層の間に、Cr以
外の各種金属あるいは非金属元素の単体、複層、合金、
分散めっき層や、それらと下地鉄あるいは表層Cr層と
の拡散層が形成されていてもかまわない。
[0025] The Cr-plated steel sheet as the material in the present invention may be any metal other than Cr or non-metal between the Cr plating layer and the base steel sheet layer as long as it satisfies the performance suitable for the use as a can body. Elemental elements, multiple layers, alloys,
A dispersed plating layer or a diffusion layer between them and an underlying iron or surface Cr layer may be formed.

【0026】また本発明の最表層Crめっき層のさらに
上層への被覆については、直接溶接が行われない部分に
ついては、どの様な表面処理が行われていても構わな
い。また、ここで溶接部以外は、塗装されていても、未
塗装状態でもかまわない。塗料の性質、塗装あるいは被
覆の手段はどの様な種類のものでもよい。
Regarding the coating on the further uppermost layer of the outermost Cr plating layer of the present invention, any surface treatment may be performed on portions where direct welding is not performed. Here, the portions other than the welded portions may be painted or unpainted. The nature of the paint, the means of painting or coating may be of any kind.

【0027】[0027]

【実施例】以下に、本発明を実施例に基づいて、さらに
具体的に説明する。
EXAMPLES The present invention will be described below more specifically based on examples.

【0028】缶胴の製造法 板厚0.12〜0.70mm、炭素含有率0.25〜
0.002重量%のアルミキルド冷延鋼板に、種々の付
着量の金属Cr及び水和酸化Crをめっきし、缶内面相
当部にエポキシフェノール系樹脂を、缶外面相当部分に
エポキシエステル系樹脂を各60mg/dm 被覆した
Crめっき鋼板を用い、スードロニック社製のワイヤー
シームレス溶接機を用いて缶胴を溶接成型した。鋼板の
性状および溶接条件を表1に示した。
Manufacturing method of can body Plate thickness 0.12 to 0.70 mm, carbon content 0.25 to
0.002% by weight of an aluminum killed cold rolled steel sheet is plated with various amounts of deposited metal Cr and hydrated Cr oxide, and an epoxy phenol resin is applied to an inner surface of the can and an epoxy ester resin is applied to an outer surface of the can. Using a Cr-plated steel sheet coated with 60 mg / dm 2, the can body was weld-formed using a wire seamless welder manufactured by Sudronic. Table 1 shows the properties of the steel sheet and the welding conditions.

【0029】[0029]

【表1】 [Table 1]

【表2】 [Table 2]

【0030】評価方法 上記の缶体について、以下の方法で評価を行った。 Evaluation method The above cans were evaluated by the following methods.

【0031】溶接可能電流範囲:種々の溶接電流値にお
いて、溶接部のスプラッシュ発生、ピール(ハイン)テ
ストによる溶接部強度判定、および溶接缶胴のフランジ
成型時の溶接部近傍のクラック発生の有無の目視判定を
総合し、溶接可能電流範囲(ACR)を求め、その中央
値の溶接電流絶対値にたするACRの比率を求め、3%
以上を可(◎)、3%未満を不可(×)とした。
Weldable current range: At various welding current values, the occurrence of splash in the weld, the determination of the strength of the weld by a peel (Hine) test, and the presence or absence of cracks near the weld during flange forming of the weld can body Comprehensively the visual judgment, find the weldable current range (ACR), find the ratio of ACR which corresponds to the absolute value of the welding current of the median value, 3%
The above was judged as acceptable (◎), and less than 3% was judged as unacceptable (x).

【0032】缶内金属粉汚染:溶接終了後の缶胴内の溶
接部中央部の左右4cmに渡って、幅15mmのセロフ
ァンテープを貼り、ただちに剥がした後、0.1N H
Cl 50cc中に入れて、10分間煮沸試、原子吸光
分析により、浸出液中のFe,Crを測定した。測定限
界以上のFe,Crが検出されたら×、検出しなければ
◎と評価した。
Metal powder contamination in the can: Cellophane tape with a width of 15 mm was applied over 4 cm on the left and right sides of the center of the welded portion in the can body after the welding was completed, immediately peeled off, and then 0.1 N H
Fe and Cr in the leachate were measured by boiling in 10 ml of Cl for 10 minutes and atomic absorption analysis. When Fe or Cr exceeding the measurement limit was detected, x was evaluated, and when not detected, ◎ was evaluated.

【0033】塩水噴霧試験:5%NaCl水溶液を用
い、塩水噴霧試験機で溶接補修塗装部に塩水を連続噴霧
し、20日後の赤錆発生面積を計測し、参考例の数値に
対して±20%以内を○、20%を越えるものを×、−
20%より少いものを◎と評価した。
Salt spray test: Using a 5% NaCl aqueous solution, a salt spray test machine continuously sprays salt water on the weld repair coating part, measures the area of red rust occurrence after 20 days, and ± 20% of the numerical value of the reference example. Within: ○, exceeding 20% ×,-
Those with less than 20% were evaluated as ◎.

【0034】上記の結果を表2に示す。この結果から本
発明の鋼板により所期の目的が達成されることが明らか
である。
Table 2 shows the results. It is clear from the results that the intended purpose is achieved by the steel sheet of the present invention.

【0035】 [0035]

【0036】[0036]

【発明の効果】本発明により、研削粉の飛散による製缶
環境および缶内容物の汚染が無く、溶接補修塗装部の塗
膜密着性が高く、信頼性の高い缶胴の溶接缶体を製造で
きるCrめっき鋼板が提供される。
Industrial Applicability According to the present invention, there is no contamination of the can-making environment and the contents of the can due to scattering of grinding powder, a high adhesion of the coating film at the weld repair coating portion, and a highly reliable can body of the can body is manufactured. A Cr-plated steel sheet is provided.

───────────────────────────────────────────────────── フロントページの続き (72)発明者 久々湊 英 雄 千葉県千葉市中央区川崎町1番地 川崎 製鉄株式会社千葉製鉄所内 (56)参考文献 特開 昭59−85883(JP,A) 特開 平3−75398(JP,A) (58)調査した分野(Int.Cl.7,DB名) C25D 11/38 ──────────────────────────────────────────────────続 き Continuation of the front page (72) Inventor Hideo Kukuminato 1 Kawasaki-cho, Chuo-ku, Chiba-shi, Chiba Kawasaki Steel Corporation Chiba Works (56) References JP-A-59-85883 (JP, A) Hei 3-75398 (JP, A) (58) Field surveyed (Int. Cl. 7 , DB name) C25D 11/38

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】鋼板の炭素含有率が0.2重量%以下であ
り、また鋼板表面に300mg/m2 以下の金属クロム層を
持ち、さらにその上に金属クロム量換算で30mg/m2
下のクロム水和酸化物層を持ち、かつ少なくとも鋼板の
片面について、該Cr水和酸化物層のカットオフ波長1
μmでの中心線平均粗さRaが5〜100nmであるこ
特徴とする溶接缶用Crめっき鋼板。
1. The steel sheet has a carbon content of 0.2% by weight or less, has a metal chromium layer of 300 mg / m 2 or less on the surface of the steel sheet, and further has a metal chromium layer of 30 mg / m 2 or less thereon. Chromium hydrated oxide layer, and at least on one side of the steel sheet, the cutoff wavelength of the Cr hydrated oxide layer is 1
Cr-plated steel sheet for welded cans, wherein the center line average roughness Ra in μm is 5 to 100 nm.
JP15254292A 1992-06-12 1992-06-12 Chrome plated steel plate for welding cans Expired - Fee Related JP3225089B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP15254292A JP3225089B2 (en) 1992-06-12 1992-06-12 Chrome plated steel plate for welding cans

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP15254292A JP3225089B2 (en) 1992-06-12 1992-06-12 Chrome plated steel plate for welding cans

Publications (2)

Publication Number Publication Date
JPH05346000A JPH05346000A (en) 1993-12-27
JP3225089B2 true JP3225089B2 (en) 2001-11-05

Family

ID=15542736

Family Applications (1)

Application Number Title Priority Date Filing Date
JP15254292A Expired - Fee Related JP3225089B2 (en) 1992-06-12 1992-06-12 Chrome plated steel plate for welding cans

Country Status (1)

Country Link
JP (1) JP3225089B2 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US10741802B2 (en) 2015-04-09 2020-08-11 Nippon Steel Corporation Steel foil for electrical storage device container, container for electrical storage device, and electrical storage device

Also Published As

Publication number Publication date
JPH05346000A (en) 1993-12-27

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