JP3218927B2 - Surface-treated steel sheet for painted or film-laminated two-piece can with excellent work adhesion and work corrosion resistance, and method for producing the same - Google Patents

Surface-treated steel sheet for painted or film-laminated two-piece can with excellent work adhesion and work corrosion resistance, and method for producing the same

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Publication number
JP3218927B2
JP3218927B2 JP15047795A JP15047795A JP3218927B2 JP 3218927 B2 JP3218927 B2 JP 3218927B2 JP 15047795 A JP15047795 A JP 15047795A JP 15047795 A JP15047795 A JP 15047795A JP 3218927 B2 JP3218927 B2 JP 3218927B2
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JP
Japan
Prior art keywords
steel sheet
adhesion
layer
processing
corrosion resistance
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
JP15047795A
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Japanese (ja)
Other versions
JPH091060A (en
Inventor
啓 久保
玲子 杉原
浩樹 岩佐
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JFE Engineering Corp
Original Assignee
JFE Engineering Corp
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Publication date
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Priority to JP15047795A priority Critical patent/JP3218927B2/en
Publication of JPH091060A publication Critical patent/JPH091060A/en
Application granted granted Critical
Publication of JP3218927B2 publication Critical patent/JP3218927B2/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Classifications

    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C28/00Coating for obtaining at least two superposed coatings either by methods not provided for in a single one of groups C23C2/00 - C23C26/00 or by combinations of methods provided for in subclasses C23C and C25C or C25D
    • C23C28/30Coatings combining at least one metallic layer and at least one inorganic non-metallic layer
    • C23C28/32Coatings combining at least one metallic layer and at least one inorganic non-metallic layer including at least one pure metallic layer
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C2/00Hot-dipping or immersion processes for applying the coating material in the molten state without affecting the shape; Apparatus therefor
    • C23C2/26After-treatment
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C28/00Coating for obtaining at least two superposed coatings either by methods not provided for in a single one of groups C23C2/00 - C23C26/00 or by combinations of methods provided for in subclasses C23C and C25C or C25D
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C28/00Coating for obtaining at least two superposed coatings either by methods not provided for in a single one of groups C23C2/00 - C23C26/00 or by combinations of methods provided for in subclasses C23C and C25C or C25D
    • C23C28/30Coatings combining at least one metallic layer and at least one inorganic non-metallic layer
    • CCHEMISTRY; METALLURGY
    • C23COATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; CHEMICAL SURFACE TREATMENT; DIFFUSION TREATMENT OF METALLIC MATERIAL; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL; INHIBITING CORROSION OF METALLIC MATERIAL OR INCRUSTATION IN GENERAL
    • C23CCOATING METALLIC MATERIAL; COATING MATERIAL WITH METALLIC MATERIAL; SURFACE TREATMENT OF METALLIC MATERIAL BY DIFFUSION INTO THE SURFACE, BY CHEMICAL CONVERSION OR SUBSTITUTION; COATING BY VACUUM EVAPORATION, BY SPUTTERING, BY ION IMPLANTATION OR BY CHEMICAL VAPOUR DEPOSITION, IN GENERAL
    • C23C28/00Coating for obtaining at least two superposed coatings either by methods not provided for in a single one of groups C23C2/00 - C23C26/00 or by combinations of methods provided for in subclasses C23C and C25C or C25D
    • C23C28/30Coatings combining at least one metallic layer and at least one inorganic non-metallic layer
    • C23C28/34Coatings combining at least one metallic layer and at least one inorganic non-metallic layer including at least one inorganic non-metallic material layer, e.g. metal carbide, nitride, boride, silicide layer and their mixtures, enamels, phosphates and sulphates
    • C23C28/345Coatings combining at least one metallic layer and at least one inorganic non-metallic layer including at least one inorganic non-metallic material layer, e.g. metal carbide, nitride, boride, silicide layer and their mixtures, enamels, phosphates and sulphates with at least one oxide layer
    • CCHEMISTRY; METALLURGY
    • C25ELECTROLYTIC OR ELECTROPHORETIC PROCESSES; APPARATUS THEREFOR
    • C25DPROCESSES FOR THE ELECTROLYTIC OR ELECTROPHORETIC PRODUCTION OF COATINGS; ELECTROFORMING; APPARATUS THEREFOR
    • C25D11/00Electrolytic coating by surface reaction, i.e. forming conversion layers
    • C25D11/38Chromatising

Landscapes

  • Chemical & Material Sciences (AREA)
  • Metallurgy (AREA)
  • Chemical Kinetics & Catalysis (AREA)
  • Engineering & Computer Science (AREA)
  • Materials Engineering (AREA)
  • Organic Chemistry (AREA)
  • Mechanical Engineering (AREA)
  • Inorganic Chemistry (AREA)
  • Electrochemistry (AREA)
  • Application Of Or Painting With Fluid Materials (AREA)
  • Laminated Bodies (AREA)
  • Chemical Treatment Of Metals (AREA)
  • 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、塗装もしくはフィルム
ラミネート後に厳しい加工を施される2ピース缶用の素
材鋼板である表面処理鋼板に関し、特に加工後の密着性
および耐食性に優れた塗装またはフィルムラミネート2
ピース缶用表面処理鋼板およびその製造方法に関する。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a surface-treated steel sheet which is a material steel sheet for two-piece cans which is subjected to severe processing after coating or film laminating, and particularly to a coating or film excellent in adhesion and corrosion resistance after processing. Laminate 2
The present invention relates to a surface-treated steel sheet for a piece can and a method for producing the same.

【0002】[0002]

【従来技術】従来の製缶工程においては、ぶりき、電解
クロメート処理鋼板(以T、TFSと称する)、アルミ
ニウムなどの金属板に一回あるいは複数回の塗装を施
し、その後製缶加工を行う場合と、製缶加工した後に塗
装を行う場合がある。缶蓋およびキャップの製造工程に
おいては、金属板に塗装を施した後、加工するのが一般
的である。
2. Description of the Related Art In a conventional can-making process, a tin plate, an electrolytic chromate-treated steel plate (hereinafter, referred to as TFS), a metal plate such as aluminum is coated once or a plurality of times, and then a can-making process is performed. In some cases, painting may be performed after can processing. In the manufacturing process of a can lid and a cap, it is common to apply a coating to a metal plate and then process it.

【0003】また、近年、金属板に有機樹脂フィルムを
ラミネートする技術が開発され、実用化されている。特
開昭57−182428号公報、特公昭61−3676
号公報等には、金属板側をフィルムの融点以上に加熱
し、熱融着によって接着する方法が開示されている。
In recent years, a technique for laminating an organic resin film on a metal plate has been developed and put into practical use. JP-A-57-182428, JP-B-61-3676.
Japanese Patent Application Laid-Open Publication No. H11-133, etc. discloses a method in which a metal plate is heated to a temperature equal to or higher than the melting point of a film and bonded by heat fusion.

【0004】塗装もしくはフィルムラミネート後に施さ
れる加工としては種々の方法があるが、特に加工度の高
いものとしては、金属板に絞り、しごき、引張り、曲げ
などの加工を単独あるいは組み合わせて行い、必要に応
じて繰り返し施すことにより、缶底部および缶胴部を一
体成形する2ピース缶製造方法がある。
[0004] There are various methods for processing after coating or film lamination. Particularly high processing is performed by drawing or squeezing, squeezing, pulling, bending or the like on a metal plate alone or in combination. There is a two-piece can manufacturing method in which a can bottom and a can body are integrally formed by repeatedly performing the process as needed.

【0005】一方、近年、製缶メーカーでは材料節減の
観点から缶体の薄肉化が進められており、そのために2
ピース缶では製缶時の加工度の増大といった手段が講じ
られている。そして、缶蓋やキャップの製造において
は、塗装またはフィルムラミネート後の金属板に、絞
り、曲げ、張り出し、スクリュー加工といった加工が施
される。
On the other hand, in recent years, can manufacturers have been reducing the thickness of can bodies from the viewpoint of material saving.
In the case of piece cans, measures are taken to increase the degree of processing during can making. In the production of can lids and caps, metal plates after painting or film lamination are subjected to processing such as drawing, bending, overhanging, and screw processing.

【0006】ところで、塗装またはフィルムラミネート
後に施される厳しい加工は、下地表面処理鋼板のめっき
皮膜の形態に大きな影響を与える。例えばTFSの場
合、ドロービード加工後の素材から塗膜またはフィルム
を溶解除去してめっき皮膜を観察すると、金属クロム層
および水和クロム酸化物には多数の亀裂が生じ、金属ク
ロムおよび鉄の新生面が現れることが判明している。こ
れは、最表層の樹脂皮膜は大きい延性を有するため、か
なり厳しい加工を施しても健全な外観を呈するが、電解
クロメート皮膜は極めて薄く、また水和クロム酸化物層
は延性が低いため、加工変形に追随できずに亀裂を生
じ、鉄および金属クロムの新生面が露出するためと考え
られる。
By the way, severe processing performed after painting or film lamination has a great influence on the form of the plating film on the base surface-treated steel sheet. For example, in the case of TFS, when the coating film or the film is dissolved and removed from the material after the draw bead processing and the plating film is observed, a number of cracks are generated in the metal chromium layer and the hydrated chromium oxide, and the new surface of the metal chromium and iron is formed. It has been found to appear. This is because the outermost resin film has a large ductility, so it shows a healthy appearance even when subjected to quite severe processing, but the electrolytic chromate film is extremely thin and the hydrated chromium oxide layer has low ductility, so it is processed. This is considered to be due to the occurrence of cracks that could not follow the deformation, exposing a new surface of iron and metallic chromium.

【0007】樹脂皮膜と下地表面処理鋼板の加工後の密
着性は、樹脂皮膜と電解クロメート処理皮膜との界面の
加工後の接着状態、ならびに鉄および金属クロムの新生
面と樹脂皮膜との接着状態に依存するため、電解クロメ
ート処理皮膜に亀裂が生じて健全な接着界面が減少する
ことと、新生面−樹脂皮膜界面の接着力が弱いことによ
り、加工した後の密着性(以下、加工密着性と称する)
および耐食性(以下、加工耐食性と称する)が劣化す
る。
[0007] The adhesion between the resin film and the base surface-treated steel sheet after processing depends on the adhesion state after processing of the interface between the resin film and the electrolytic chromate treatment film and the adhesion state between the newly formed surface of iron and metallic chromium and the resin film. Therefore, the adhesiveness after processing (hereinafter referred to as processing adhesion) is caused by the fact that cracks occur in the electrolytic chromate-treated film and the sound adhesive interface decreases, and the adhesive force between the new surface and the resin film interface is weak. )
And the corrosion resistance (hereinafter referred to as processing corrosion resistance) is deteriorated.

【0008】このように、材料節減を目的とした薄肉化
を進めるために加工度を大きくすれば、加工密着性およ
び加工耐食性等の性能の劣化が大きくなる。また、前述
の熱融着によるフィルム接着方法でもやはり加工密着性
および加工耐食性の劣化が大きく、実用には供し難い。
As described above, if the degree of processing is increased in order to reduce the wall thickness for the purpose of saving the material, performance such as processing adhesion and processing corrosion resistance is greatly deteriorated. Further, the film adhesion method by the above-mentioned heat fusion also has a large deterioration in processing adhesion and processing corrosion resistance, and is hardly practical.

【0009】このような問題を解決するための技術とし
て、予め接着剤を塗布した有機樹脂フィルムを金属板に
ラミネートする方法が、特公平4−74176号公報、
特公平5−71035号公報、特開平2−70430号
公報等に開示されている。
As a technique for solving such a problem, a method of laminating an organic resin film coated with an adhesive in advance on a metal plate is disclosed in Japanese Patent Publication No. 4-74176.
It is disclosed in Japanese Patent Publication No. 5-71035, Japanese Patent Application Laid-Open No. 2-70430, and the like.

【0010】これらに開示された方法によれば加工密着
性および加工耐食性は改善されるが、接着剤の溶剤を加
熱することによって蒸発させる必要があり、工程が繁雑
になるばかりでなく、排出溶剤の処理やエネルギー消費
量の増大といった問題が生じ、環境保全の観点からも好
ましくない。
According to the methods disclosed in these publications, the working adhesion and the working corrosion resistance are improved, but it is necessary to evaporate the solvent of the adhesive by heating it, which not only complicates the process but also reduces the amount of solvent discharged. This causes problems such as treatment of wastewater and an increase in energy consumption, which is not preferable from the viewpoint of environmental conservation.

【0011】また、製造工程で特に厳しい加工を施す場
合にはより以上の加工密着性および加工耐食性が要求さ
れ、レトルト処理時の高温水蒸気環境にさらされる場合
にはさらに性能劣化の程度が大きくなることから、これ
らの技術によっても加工密着性および加工耐食性の改善
の程度は未だ不十分であり、一部の内容物では適用する
ことができないという問題がある。
Further, in the case where particularly severe processing is performed in the manufacturing process, further processing adhesion and processing corrosion resistance are required, and when exposed to a high-temperature steam environment during retort processing, the degree of performance deterioration is further increased. Therefore, even with these techniques, the degree of improvement in processing adhesion and processing corrosion resistance is still insufficient, and there is a problem that it cannot be applied to some contents.

【0012】[0012]

【発明が解決しようとする課題】本発明は、かかる事情
に鑑みてなされたものであって、塗装またはフィルムラ
ミネート後に厳しい加工を施された際にも加工密着性お
よび加工耐食性に優れ、レトルト処理を必要とするよう
な内容物等を含め、あらゆる内容物に対して適用可能
な、塗装またはフィルムラミネート2ピース缶用表面処
理鋼板およびその製造方法を提供することを目的とす
る。
SUMMARY OF THE INVENTION The present invention has been made in view of the above circumstances, and has excellent processing adhesion and processing corrosion resistance even when severe processing is performed after painting or film lamination. It is an object of the present invention to provide a surface-treated steel sheet for painted or film-laminated two-piece cans and a method for producing the same, which can be applied to all contents, including contents that require the following.

【0013】[0013]

【課題を解決するための手段および作用】本発明者ら
は、上記課題を解決するために、塗装あるいはラミネー
トフィルムのような有機樹脂層との密着性が比較的良好
な表面処理鋼板であるTFSを下地として、樹脂皮膜と
TFSとの接着界面における接着機構を詳細に検討し
た。さらに、塗料あるいはラミネートフィルムと接着し
た後に厳しい加工を受けた場合の接着界面を詳細に調査
し、内容物充填後の内面の水性環境あるいはレトルト処
理時の高温水蒸気環境において、加工密着性および加工
耐食性が劣化する機構について詳細に調査した。
In order to solve the above-mentioned problems, the present inventors have developed a TFS which is a surface-treated steel sheet having relatively good adhesion to an organic resin layer such as a painted or laminated film. Using as a base, the bonding mechanism at the bonding interface between the resin film and TFS was examined in detail. In addition, a detailed investigation was conducted on the bonding interface when subjected to severe processing after bonding with paint or a laminate film, and processing adhesion and processing corrosion resistance in an aqueous environment of the inner surface after filling the contents or in a high-temperature steam environment during retort processing. The mechanism by which the metal deteriorates was investigated in detail.

【0014】その結果、加工密着性および加工耐食性の
劣化を抑制するためには、TFSの最上層に存在する水
和クロム酸化物層と塗料あるいはラミネートフィルムと
の接着において支配的な水素結合力を高めることが重要
であり、極性基を有する有機物を付与することが有効で
あることを知見した。また、加工による変形のために接
着界面に金属新生面が現れた部分については、加工後に
再接着を生じせしめること、さらには溶出した金属イオ
ンを捕集することにより、特性の劣化を抑制することが
できることを見出し、この機構においても前述の極性基
を有する有機物を付与する方法が有効であるとの知見を
得た。
As a result, in order to suppress the deterioration of the work adhesion and the work corrosion resistance, the hydrogen bonding force which is dominant in the adhesion between the hydrated chromium oxide layer present on the uppermost layer of TFS and the paint or laminate film is required. It has been found that it is important to increase the content, and it is effective to provide an organic substance having a polar group. In addition, for the part where a new metal surface appears at the bonding interface due to deformation due to processing, re-adhesion occurs after processing, and furthermore, it is possible to suppress degradation of characteristics by collecting eluted metal ions. They have found that it is possible to use the above-described method of providing an organic substance having a polar group in this mechanism.

【0015】本発明は、従来のラミネート時のフィルム
への接着剤塗布といった方法とは全く関係なく、このよ
うにTFSの水和クロム酸化物層に特定の有機物を付与
することにより、塗装またはフィルムラミネート後の鋼
板に厳しい加工を施した後の加工密着性および加工耐食
性が著しく改善されることを見出し、完成されたもので
ある。
The present invention has nothing to do with the conventional method of applying an adhesive to a film at the time of laminating, and thus, by applying a specific organic substance to the hydrated chromium oxide layer of TFS, it is possible to paint or coat the film. The inventors have found that the work adhesion and work corrosion resistance after severe processing of the steel sheet after lamination are remarkably improved and completed.

【0016】すなわち、本発明は、第1に、下地鋼板の
少なくとも一方の面に、下層が片面あたり30〜300
mg/m2 の金属クロム層、上層が片面あたり金属クロ
ム換算で5〜30mg/m2 の水和クロム酸化物層から
なる電解クロメート処理皮膜を有し、さらにその上層に
極性基を分子内に有する分子量1000以上の有機樹脂
を少なくとも1種含み、平均付着量が固形分濃度として
1〜1000mg/m2 である有機物層を有することを
特徴とする、加工密着性および加工耐食性に優れた塗装
またはフィルムラミネート2ピース缶用表面処理鋼板を
提供する。
That is, according to the present invention, first, the lower layer is formed on at least one surface of the base steel sheet in an amount of 30 to 300 per side.
mg / m 2 of metallic chromium layer, the upper layer has an electrolytic chromate conversion coating consisting of hydrated chromium oxide layer of 5 to 30 mg / m 2 of metal per side terms of chromium, more intramolecular polar group thereon A coating having excellent processing adhesion and processing corrosion resistance, characterized by having an organic layer containing at least one organic resin having a molecular weight of 1000 or more and having an average adhesion amount of 1 to 1000 mg / m 2 as a solid concentration. Provided is a surface-treated steel sheet for a film-laminated two-piece can.

【0017】第2に、前記有機物層が、全有機物重量に
対する極性基の総重量が3%以上であることを特徴とす
る請求項1に記載の加工密着性および加工耐食性に優れ
た塗装またはフィルムラミネート2ピース缶用表面処理
鋼板を提供する。
Secondly, the coating or film having excellent working adhesion and working corrosion resistance according to claim 1, wherein the organic substance layer has a total weight of polar groups of 3% or more based on the total organic substance weight. Provided is a surface-treated steel sheet for a laminated two-piece can.

【0018】第3に、上記いずれかの発明において、前
記有機物層の極性基が、シアノ基、アミノ基、アミノカ
ルボン酸基からなる群から選択される少なくとも1種で
あることを特徴とする加工密着性および加工耐食性に優
れた塗装またはフィルムラミネート2ピース缶用表面処
理鋼板を提供する。
Third, in any one of the above inventions, the polar group of the organic layer is at least one selected from the group consisting of a cyano group, an amino group and an aminocarboxylic acid group. Provided is a surface-treated steel sheet for painted or film-laminated two-piece cans having excellent adhesion and corrosion resistance.

【0019】第4に、鋼板に直接またはクロムめっき後
に電解クロメート処理を施すことにより、鋼板の少なく
とも一方の面上に片面あたり30〜300mg/m2
金属クロム層およびその上層に片面あたり金属クロム換
算で5〜30mg/m2 の水和クロム酸化物層の2層を
形成し、水洗または水洗および乾燥の後に、極性基を分
子内に含む少なくとも1種の重合体を含む有機物を0.
3g/l以上の濃度で含む水溶液を塗布し、次いで乾燥
させることを特徴とする、加工密着性および加工耐食性
に優れた塗装またはフィルムラミネート2ピース缶用表
面処理鋼板の製造方法を提供する。
Fourth, by subjecting the steel sheet to electrolytic chromate treatment directly or after chromium plating, a metal chromium layer of 30 to 300 mg / m 2 per side on at least one side of the steel sheet and a metal chromium layer After forming two layers of a hydrated chromium oxide layer with a conversion of 5 to 30 mg / m 2 , and after washing with water or washing with water and drying, an organic substance containing at least one polymer containing a polar group in the molecule is added to the hydrated chromium oxide layer.
Provided is a method for producing a coated or film-laminated two-piece surface-treated steel sheet having excellent work adhesion and work corrosion resistance, comprising applying an aqueous solution containing a concentration of 3 g / l or more and then drying.

【0020】このような構成を有する本発明によれば、
省資源の観点から進められている缶体の薄肉化に伴う加
工度の増大による加工密着性および加工耐食性の劣化を
抑制し、高温水蒸気環境であるレトルト処理等が必要な
内容物にも適用可能な塗装またはフィルムラミネート2
ピース缶用表面処理鋼板をコストの増大を伴うことなく
提供することができる。
According to the present invention having such a configuration,
Suppresses the deterioration of processing adhesion and corrosion resistance due to the increase in workability due to the thinning of can bodies, which has been promoted from the viewpoint of resource saving, and can be applied to contents that require retort treatment, etc., which is a high-temperature steam environment. Painting or film lamination 2
The surface-treated steel sheet for a piece can can be provided without increasing the cost.

【0021】以下、本発明について詳細に説明する。従
来の、表面に水和クロム酸化物層を有するTFSとフィ
ルムまたは塗料等の樹脂皮膜との接着のメカニズムは、
水和クロム酸化物層の水酸基と樹脂皮膜の極性基間に働
く水素結合によるものが支配的であると考えられる。し
たがって、水和クロム酸化物層と樹脂皮膜との密着力を
上げるには、樹脂皮膜自体を変えるか、水和クロム酸化
物層の質を変える以外に方法はない。しかし、水和クロ
ム酸化物層の質を変えるとしても、電解クロメート処理
時に含有されてしまう他種アニオンの混入率を低下させ
るか、アニオン種を変えるなどの方法しかなく、接着の
メカニズムを根本から変えるものではないため、密着力
の向上には自ずと限界がある。
Hereinafter, the present invention will be described in detail. The conventional mechanism of adhesion between a TFS having a hydrated chromium oxide layer on the surface and a resin film such as a film or paint is as follows.
It is considered that the dominant one is caused by a hydrogen bond acting between the hydroxyl group of the hydrated chromium oxide layer and the polar group of the resin film. Therefore, there is no other way to increase the adhesion between the hydrated chromium oxide layer and the resin film except to change the resin film itself or the quality of the hydrated chromium oxide layer. However, even if the quality of the hydrated chromium oxide layer is changed, there is no other way but to reduce the mixing ratio of other anions contained in the electrolytic chromate treatment or to change the anion species. Since it does not change, there is naturally a limit in improving the adhesion.

【0022】これに対して本発明は、水和クロム酸化物
上層にシアノ基、アミノ基、アミノカルボン酸基等の極
性基を分子内に有する分子量1000以上の有機樹脂を
含有させているため、接着のメカニズム自体が従来とは
大きく異なる。すなわち、極性基を有する分子量100
0以上の有機樹脂は、水和クロム酸化物と樹脂皮膜との
水素結合力より強い水素結合を生じるため、このような
有機樹脂を用いることにより密着力の向上を容易に図る
ことができる。
On the other hand, in the present invention, since the upper layer of the hydrated chromium oxide contains an organic resin having a molecular weight of 1000 or more having polar groups such as cyano group, amino group and aminocarboxylic acid group in the molecule, The bonding mechanism itself is significantly different from the conventional one. That is, the molecular weight having a polar group of 100
Since 0 or more organic resins generate a hydrogen bond stronger than the hydrogen bond between the hydrated chromium oxide and the resin film, the use of such an organic resin can easily improve the adhesion.

【0023】本発明は、上述した樹脂皮膜との一次密着
性を向上させる効果にとどまらず、以下のような効果を
も奏することができる。TFSに樹脂皮膜を接着した後
に加工を施す場合、樹脂皮膜は加工に応じて変形するこ
とが可能であるが、金属クロム層と水和クロム酸化物層
は亀裂が生じて島状にばらばらになり、金属クロムおよ
び鉄の新生面が生ずることになる。従来のTFSにおい
ては、加工後の密着力を担う部分は加工後に残存する水
和クロム酸化物層と樹脂皮膜との接着部分が支配的であ
り、鉄および金属クロムの新生面と樹脂皮膜との密着力
は極端に低いため全体として密着力は大幅に低下する。
しかしながら、本発明における表面処理鋼板は、加工後
に現れる鉄および金属クロム新生面と樹脂皮膜との間に
極性基を有する有機樹脂が存在し、これが密着力を有す
るため加工後の密着性も優れる。すなわち、極性基を有
する有機樹脂と樹脂皮膜との密着力が、極性基を有する
有機樹脂と水和クロム酸化物層との密着力より勝った場
合、加工後にも鉄および金属クロムの新生面と樹脂皮膜
の間に極性基を有する有機樹脂が存在することになる
し、逆の場合でも、加工につれて水和クロム酸化物に亀
裂が生じ島状にばらばらになった際に、極性基を有する
有機樹脂が島と島との間を橋架けするか、滑りを生じて
樹脂皮膜側に付いていくことになる。いずれの場合で
も、鉄および金属クロムの新生面と樹脂皮膜との間に極
性基を有する有機樹脂が存在するのである。
The present invention can provide not only the effect of improving the primary adhesion to the resin film described above but also the following effects. When processing after bonding the resin film to TFS, the resin film can be deformed according to the processing, but the metal chromium layer and the hydrated chromium oxide layer are cracked and become island-like. New chromium and iron surfaces. In the conventional TFS, the portion that bears the adhesion after processing is dominated by the adhesion between the hydrated chromium oxide layer and the resin film remaining after processing, and the adhesion between the newly formed surface of iron and metallic chromium and the resin film. Because the force is extremely low, the overall adhesion is significantly reduced.
However, the surface-treated steel sheet according to the present invention has an organic resin having a polar group between the newly formed surface of iron and metal chromium that appears after processing and the resin film, and has an adhesive force, and thus has excellent adhesion after processing. In other words, if the adhesion between the organic resin having a polar group and the resin film is superior to the adhesion between the organic resin having a polar group and the hydrated chromium oxide layer, the newly formed surface of iron and metallic chromium and the resin remain even after processing. An organic resin having a polar group will be present between the coatings, and even in the opposite case, when the hydrated chromium oxide cracks and breaks into islands during processing, the organic resin having a polar group Will bridge or slide between islands and will stick to the resin film side. In any case, an organic resin having a polar group exists between the newly formed surface of iron and metallic chromium and the resin film.

【0024】また、このような高分子が直線的でなく立
体的であり、加工変形に対してある程度伸びの余地を残
していることが有利に作用すると考えられ、高分子が直
線的であるかあるいは短ければ不利であると考えられ
る。加工時の環境下において、鉄および金属クロムの新
生面は可及的速やかに酸化されて水酸基を生ずるので、
新生面と樹脂皮膜との間に極性基を有する有機樹脂層が
存在することによって強固な密着力が生じ、加工後も密
着性が優れるのである。
It is considered that such a polymer is not linear but is three-dimensional, and it is advantageous to leave some room for elongation against processing deformation. Or it is considered disadvantageous if it is short. Under the processing environment, the new surface of iron and metallic chromium is oxidized as quickly as possible to produce hydroxyl groups,
The presence of the organic resin layer having a polar group between the nascent surface and the resin film produces a strong adhesive force, and the adhesiveness is excellent even after processing.

【0025】さらに、本発明の表面処理鋼板は、高温の
水性環境あるいは水蒸気環境下における密着性にも優れ
る。一般に、上述のような環境下で密着性が劣化するの
は、水が樹脂皮膜と鋼板との界面に侵入したとき、水の
極性の大きさ故、水が密着力を支える水素結合を置換す
るためであると思われる。しかしながら、本発明におい
ては、極性基を有する有機樹脂が従来のTFSよりも強
固な水素結合を有するので水で置換され難く、このため
高温の水性環境、水蒸気環境においても密着性が優れる
のである。
Further, the surface-treated steel sheet of the present invention has excellent adhesion in a high-temperature aqueous environment or steam environment. Generally, in the environment described above, the adhesiveness is deteriorated because, when water enters the interface between the resin film and the steel sheet, because of the polarity of the water, the water replaces the hydrogen bond that supports the adhesiveness. It seems to be because. However, in the present invention, since the organic resin having a polar group has a stronger hydrogen bond than conventional TFS, it is difficult to be replaced by water, and therefore, the adhesiveness is excellent even in a high-temperature aqueous environment or steam environment.

【0026】しかも、水分子によって水素結合が置換さ
れ難いということは、拡張漏れをも防ぐ効果があるた
め、加工後の耐食性も優れることとなる。さらにまた、
シアノ基、アミノ基、アミノカルボン酸基などの極性基
は、金属イオンのキレート能も有するため、溶出してき
た鉄イオンを捕集する能力を有する。このため溶出して
きた鉄イオンを極性基が捕集する。加工後に鉄の新生面
が露出するような系において、従来のTFSではこのよ
うな鉄イオン捕集機構は存在しない。したがって、従来
のTFSに比較して本発明の表面処理鋼板は飛躍的に加
工耐食性が向上するのである。
Moreover, the fact that the hydrogen bond is not easily replaced by water molecules has the effect of preventing the expansion leakage, and therefore, the corrosion resistance after processing is also excellent. Furthermore,
Polar groups such as a cyano group, an amino group, and an aminocarboxylic acid group also have the ability to capture the eluted iron ions because they also have the ability to chelate metal ions. Therefore, the eluted iron ions are collected by the polar group. In a system in which a new surface of iron is exposed after processing, such a mechanism for trapping iron ions does not exist in the conventional TFS. Therefore, as compared with the conventional TFS, the surface-treated steel sheet of the present invention is significantly improved in the work corrosion resistance.

【0027】以下、発明の限定理由について説明する。
本発明では、下地鋼板の少なくとも一方の面に、下層が
金属クロム層、上層が水和クロム酸化物層からなる2層
の電解クロメート処理皮膜を有する。
Hereinafter, the reasons for limitation of the present invention will be described.
In the present invention, at least one surface of the base steel sheet has a two-layer electrolytic chromate treatment film in which the lower layer is a metal chromium layer and the upper layer is a hydrated chromium oxide layer.

【0028】ここで下層の金属クロム付着量は、片面あ
たり30〜300mg/m2 とする。その付着量が30
mg/m2 未満の場合には耐食性に問題を生じ、300
mg/m2 を超えると加工性が劣るので好ましくない。
いずれにしても、通常の電解クロメート処理鋼板に用い
られる量であれば問題はない。
Here, the adhesion amount of metallic chromium in the lower layer is 30 to 300 mg / m 2 per one side. The amount of adhesion is 30
If the amount is less than mg / m 2 , there is a problem in corrosion resistance, and 300
If it exceeds mg / m 2 , the processability is inferior.
In any case, there is no problem as long as the amount is used for a normal electrolytic chromate treated steel sheet.

【0029】上層の水和クロム酸化物の付着量は、片面
あたり金属クロム換算で5〜30mg/m2 とする。そ
の付着量が5mg/m2 未満では金属クロム層が水和ク
ロム酸化物によって均一に覆われず金属層の露出面積が
大となり、耐食性および耐経時劣化性、加工密着性が劣
るため好ましくない。また、30mg/m2 を超えると
水和クロム酸化物層が厚すぎることによって生じる外観
の劣化および密着性の劣化を引き起こし好ましくない。
The amount of hydrated chromium oxide in the upper layer is 5 to 30 mg / m 2 in terms of metallic chromium per one surface. If the adhesion amount is less than 5 mg / m 2 , the metal chromium layer is not uniformly covered with the hydrated chromium oxide, the exposed area of the metal layer becomes large, and the corrosion resistance, the aging deterioration resistance, and the processing adhesion are inferior. On the other hand, if it exceeds 30 mg / m 2 , the hydrated chromium oxide layer is unfavorably caused because the hydrated chromium oxide layer is too thick, which causes deterioration in appearance and adhesion.

【0030】電解クロメート処理皮膜の上には、極性基
を分子内に有する分子量1000以上の有機樹脂を少な
くとも1種含み、平均付着量が固形分濃度として1〜1
000mg/m2 である有機物層が形成される。ここで
極性基を分子内に有する樹脂を含む有機物層としては、
全有機物重量に対する極性基の総重量が3%以上である
ことが好ましい。極性基はこの濃度以上において有効に
機能することができ、密着性を格段に向上させる効果を
発揮することができるからである。
The electrolytic chromate-treated film contains at least one organic resin having a molecular weight of 1000 or more and having a polar group in the molecule, and has an average adhesion amount of 1 to 1 as a solid concentration.
An organic layer of 000 mg / m 2 is formed. Here, as an organic layer containing a resin having a polar group in the molecule,
It is preferable that the total weight of the polar groups is 3% or more based on the weight of all organic substances. This is because the polar group can function effectively at a concentration higher than this, and can exert an effect of remarkably improving adhesion.

【0031】本発明において極性基としては、前述した
ように、シアノ基、アミノ基、アミノカルボン酸基が挙
げられるが、これらの少なくとも1種を分子内に有する
有機樹脂としては、具体的には、ポリアクリロニトリ
ル、ビニルアルコール、アミノカルボン酸ビニル共重合
体、ポリアクリルアミド、これらを含む共重合体などが
挙げられ、有機物層にはこれらの1種または2種以上が
含有される。また、有機物層には、上記極性基を分子内
に有する有機樹脂の他、ポリエチレングリコール、ポリ
プロピレングリコールなど他の有機物質を含有させるこ
ともできる。
In the present invention, as described above, the polar group includes a cyano group, an amino group, and an aminocarboxylic acid group. Examples of the organic resin having at least one of these in a molecule include: , Polyacrylonitrile, vinyl alcohol, vinyl aminocarboxylate copolymer, polyacrylamide, copolymers containing these, and the like. The organic layer contains one or more of these. Further, the organic layer may contain other organic substances such as polyethylene glycol and polypropylene glycol in addition to the organic resin having the polar group in the molecule.

【0032】極性基を分子内に有する有機樹脂の分子量
は1000以上の高分子レベルであることが必要であ
る。分子量を1000以上と規定したのは、分子量が低
いと、前述したように加工時に伸びることができず、加
工密着性を十分に向上させることができないからであ
る。有機樹脂の分子量の上限は特にないが、500万以
下であることが好ましい。
The molecular weight of the organic resin having a polar group in the molecule must be at a high molecular level of 1,000 or more. The reason why the molecular weight is specified to be 1000 or more is that if the molecular weight is low, it cannot be stretched at the time of processing as described above, and the processing adhesion cannot be sufficiently improved. The upper limit of the molecular weight of the organic resin is not particularly limited, but is preferably 5,000,000 or less.

【0033】有機物層の平均付着量は1〜1000mg
/m2 である。密着性を有効に向上させるためには1m
g/m2 は最低限必要であり、また1000mg/m2
を超えても密着力向上効果が飽和するとともに、有機物
層が厚くなり、高分子内で凝集破壊を起こしやすくなっ
て密着性に悪影響を及ぼすからである。また、平均付着
量を100mg/m2 以上とするためには表面外観を損
なわないよう均一に有機物を付着させることができる適
当な設備が必要であり、また乾燥に時間がかかることな
どから、TFS製造ラインにてインラインで製造するこ
とが困難となるため不経済である。したがって、平均付
着量を100mg/m2 未満とすることが好ましい。
The average amount of the organic substance layer is 1 to 1000 mg.
/ M 2 . 1m to effectively improve adhesion
g / m 2 is the minimum required and 1000 mg / m 2
This is because, even if the ratio exceeds 1, the effect of improving the adhesion is saturated, and the thickness of the organic material layer is increased, so that cohesive failure easily occurs in the polymer, which adversely affects the adhesion. Further, in order to make the average amount adhered to 100 mg / m 2 or more, it is necessary to use appropriate equipment capable of uniformly adhering organic substances so as not to impair the surface appearance, and it takes time to dry. It is uneconomical because it is difficult to produce in-line on a production line. Therefore, it is preferable that the average amount of adhesion be less than 100 mg / m 2 .

【0034】本発明においては、鋼板に直接またはクロ
ムめっき後に電解クロメート処理を施すことにより、鋼
板の少なくとも一方の面上に片面あたり30〜300m
g/m2 の金属クロム層およびその上層に片面あたり金
属クロム換算で5〜30mg/m2 の水和クロム酸化物
層の2層を形成し、水洗または水洗および乾燥の後に、
極性基を分子内に含む少なくとも1種の重合体を含む有
機物を0.3g/l以上の濃度で含む水溶液を塗布し、
次いで乾燥させ、上記構成の表面処理鋼板を製造する。
In the present invention, the steel sheet is subjected to electrolytic chromate treatment directly or after chromium plating, so that at least one side of the steel sheet has a thickness of 30 to 300 m per side.
g / m 2 chromium metal layer and two layers of 5-30 mg / m 2 hydrated chromium oxide layer in terms of metal chromium per side are formed on the upper layer, and after water washing or water washing and drying,
Applying an aqueous solution containing at least 0.3 g / l of an organic substance containing at least one polymer containing a polar group in the molecule,
Then, it is dried to produce the surface-treated steel sheet having the above configuration.

【0035】ここで、電解クロメート処理方法は、金属
クロムと水和クロム酸化物を同時に析出させる1液法、
および金属クロム層形成後に水和クロム酸化物を析出さ
せる2液法のいずれでもよい。
Here, the electrolytic chromate treatment method is a one-liquid method in which chromium metal and hydrated chromium oxide are simultaneously precipitated.
And a two-liquid method in which a hydrated chromium oxide is deposited after the formation of the metal chromium layer.

【0036】有機物層形成の際に、電解クロメート処理
皮膜上に塗布される水溶液としては、有機物を0.3g
/l以上含有するものであることが好ましい。この濃度
以下であると有効量が鋼板表面に吸着せず、ひいては密
着性を十分に引き上げることが困難であるからである。
When forming the organic material layer, the aqueous solution to be applied on the electrolytic chromate-treated film contains 0.3 g of the organic material.
/ L or more. If the concentration is lower than this, the effective amount does not adhere to the steel sheet surface, and it is difficult to sufficiently increase the adhesion.

【0037】なお、下地鋼板は特に限定されるものでは
なく、通常この種の表面処理鋼板に用いられる鋼板であ
れば使用することができ、例えば低炭素Alキルド鋼板
などを適用することができる。
The base steel sheet is not particularly limited, and any steel sheet usually used for this type of surface-treated steel sheet can be used. For example, a low-carbon Al-killed steel sheet can be used.

【0038】[0038]

【実施例】次に、本発明の具体的な実施例について説明
する。 [供試材] (1)表面処理鋼板 全ての実施例および比較例は、低炭素Alキルド連鋳鋼
で、厚さ0.20mmのT4CA材を原板鋼帯として、
竪型のTFSラインを使用して製造した。
Next, specific examples of the present invention will be described. [Test materials] (1) Surface-treated steel sheet All examples and comparative examples are low carbon Al-killed continuous cast steel, a T4CA material having a thickness of 0.20 mm as an original steel strip.
It was manufactured using a vertical TFS line.

【0039】次いで、表1に示す電解クロメート処理を
施した後、同じく表1に示す条件で有機物の水溶液もし
くは有機物エマルジョン分散させた水溶液を塗布し、乾
燥することによって有機物層を形成した。有機物層の付
着量は、絞りロールの押さえ圧調整またはコーティング
ロールの設定によって制御した。なお、有機物層に使用
した物質を表2に示す。
Next, after an electrolytic chromate treatment shown in Table 1, an aqueous solution of an organic substance or an aqueous solution in which an organic emulsion was dispersed was applied under the same conditions as shown in Table 1, and dried to form an organic substance layer. The amount of the organic layer deposited was controlled by adjusting the pressing pressure of the squeezing roll or setting the coating roll. Table 2 shows the substances used for the organic layer.

【0040】(2)塗装 実施例、比較例に記載された表面処理鋼板を200×3
00mmの切板にし、その両面に次に示す条件でエポキ
シ樹脂塗料を塗装し、焼付けた。
(2) Coating The surface-treated steel sheets described in Examples and Comparative Examples were 200 × 3
A cut plate having a thickness of 00 mm was coated with an epoxy resin paint on both sides under the following conditions and baked.

【0041】 エポキシ樹脂塗料付着量:60mg/dm2 (乾燥後) 焼付け温度 :210℃ 焼付け時間 :10分間 (3)フィルムラミネート 実施例、比較例に記載された表面処理鋼板を200×3
00mmの切板にし、その両面に次に示す条件で市販の
ポリエステルフィルムをラミネートした。
Epoxy resin paint adhesion amount: 60 mg / dm 2 (after drying) Baking temperature: 210 ° C. Baking time: 10 minutes (3) Film lamination The surface-treated steel sheet described in Examples and Comparative Examples was 200 × 3.
A cut sheet of 00 mm was formed, and a commercially available polyester film was laminated on both sides under the following conditions.

【0042】フィルム:二軸配向ポリエステルフィルム
(ポリエチレングリコールとテレフタル酸/イソフタル
酸の共重合体) フィルムの厚さ :25μm フィルムの結晶融解温度 :229℃ ラミネート直前の鋼板温度:235℃ ラミネート速度 :2m/秒 ラミネート後の冷却 :水冷(急冷) [評価] (1)絞り加工性 塗装またはラミネート表面処理鋼板を直径158mmの
円板に打抜き、絞り比2.92で円筒状カップに絞り加
工を施した後、カップ内面のフィルムまたは塗装の剥離
状況をルーペで観察した。その際、剥離なしの良好な状
態を5点とし、4点、3点、2点、1点と小さくなるに
つれて剥離の程度が大きくなるように5段階に分けて評
価した。
Film: Biaxially oriented polyester film (copolymer of polyethylene glycol and terephthalic acid / isophthalic acid) Film thickness: 25 μm Crystal melting temperature of film: 229 ° C. Steel sheet temperature immediately before lamination: 235 ° C. Laminating speed: 2 m / Sec Cooling after laminating: water cooling (quenching) [Evaluation] (1) Drawing workability A painted or laminated surface-treated steel plate was punched into a disk having a diameter of 158 mm, and a cylindrical cup was drawn at a drawing ratio of 2.92. Thereafter, the peeling state of the film or coating on the inner surface of the cup was observed with a loupe. At that time, five points were set to a good state without delamination, and the evaluation was made in five stages so that the degree of delamination increased as the number of points decreased to four points, three points, two points, and one point.

【0043】また、1.5%NaCl+1.5%クエン
酸水溶液中で90分間レトルト処理を施し、水洗、乾燥
後、同様にカップ内面の剥離強度を同基準で5段階評価
した。
Further, a retort treatment was performed in 1.5% NaCl + 1.5% citric acid aqueous solution for 90 minutes, washed with water and dried, and similarly, the peel strength of the inner surface of the cup was evaluated in five steps based on the same standard.

【0044】(2)曲げ加工 塗装またはラミネート表面処理鋼板を30×300mm
のたんざく状に切り出し、先端Rが0.25mmの工具
を用い、押さえ圧1000kgfでドロービードテスト
を行い、さらに圧延機で15%の圧縮加工を施して、ド
ロービード工具接触面の反対側をルーペで観察した。そ
の際、絞り加工性評価と同様に剥離の程度を5段階で評
価した。
(2) Bending work Painted or laminated surface-treated steel sheet is 30 × 300 mm
Using a tool with a tip R of 0.25 mm, a draw bead test is performed at a holding pressure of 1000 kgf, and a 15% compression process is performed by a rolling mill, and a loupe is formed on the opposite side of the draw bead tool contact surface. Was observed. At this time, the degree of peeling was evaluated in five steps as in the evaluation of the drawability.

【0045】また、1.5%NaCl+1.5%クエン
酸水溶液中で90分間レトルト処理を施し、同様にドロ
ービード工具の接触面の反対側をルーペ観察し、同基準
で5段階評価した。
A retort treatment was performed for 90 minutes in an aqueous solution of 1.5% NaCl + 1.5% citric acid. Similarly, the opposite side of the contact surface of the draw bead tool was observed with a loupe, and evaluated on a 5-point scale based on the same standard.

【0046】(3)リパックテスト ラミネート表面鋼板を直径110mmの円板に打抜き、
まず最初に絞り比1.51で円筒状カップ絞りを施し、
次いで絞り比1.20で再絞り加工を施して、円筒状カ
ップ(全絞り比1.81)を作成した。このカップの内
面のフィルムの剥離状況をルーペで観察し、上と同じ基
準で5段階評価した。
(3) Repack test A laminated steel sheet was punched into a disk having a diameter of 110 mm.
First, a cylindrical cup is drawn with a draw ratio of 1.51,
Next, redrawing was performed at a drawing ratio of 1.20, and a cylindrical cup (total drawing ratio of 1.81) was prepared. The state of peeling of the film on the inner surface of the cup was observed with a loupe, and evaluated on a 5-point scale based on the same criteria as above.

【0047】また、本カップ中にコカコーラ(商標名)
をリパックし、38℃で3カ月の貯蔵テストを行った。
この貯蔵テスト後のカップ内面のフィルムと金属板の剥
離状況をルーペで観察し、上と同じ基準で5段階評価し
た。同時にコカコーラ中に溶出した鉄イオンを原子吸光
法で求めた。
Further, Coca-Cola (trade name) is contained in the cup.
Were repacked and subjected to a storage test at 38 ° C. for 3 months.
After this storage test, the peeling state of the film and the metal plate on the inner surface of the cup was observed with a loupe, and evaluated on a 5-point scale based on the same criteria as above. At the same time, iron ions eluted in Coca-Cola were determined by atomic absorption method.

【0048】これらの評価結果を、表1に併せて示す。
表1に示すように、本発明の範囲内である実施例の表面
処理鋼板は、塗装またはフィルムラミネート後の一次密
着性が優れているばかりでなく、加工後の密着性、さら
にはレトルト処理後の密着性にも優れていることが確認
された。また、内容物を長期間貯蔵した際の鉄溶出量は
極めて少なく、加工耐食性が格段に向上していることが
確認された。
The results of these evaluations are also shown in Table 1.
As shown in Table 1, the surface-treated steel sheets of Examples that are within the scope of the present invention have not only excellent primary adhesion after painting or film lamination, but also adhesion after processing, and further after retorting. It was confirmed that the adhesiveness was excellent. Further, the amount of iron eluted when the contents were stored for a long time was extremely small, and it was confirmed that the processing corrosion resistance was remarkably improved.

【0049】これに対し、本発明の範囲から外れる比較
例は、特にレトルト処理後の加工密着性および内容物貯
蔵時の耐食性に劣っていた。以上のように、本発明に係
る表面処理鋼板を用いることにより、電解クロメート処
理方法によらず、優れた加工密着性および加工耐食性が
得られることが確認された。なお、本発明は上記実施例
に限定されるものでなく、本発明の要旨を逸脱しない範
囲であれば他の種々の態様によって実施することができ
る。
On the other hand, the comparative examples out of the range of the present invention were particularly inferior in processing adhesion after retort treatment and corrosion resistance during storage of contents. As described above, it was confirmed that by using the surface-treated steel sheet according to the present invention, excellent processing adhesion and processing corrosion resistance can be obtained regardless of the electrolytic chromating method. It should be noted that the present invention is not limited to the above-described embodiment, and can be carried out in other various modes without departing from the gist of the present invention.

【0050】[0050]

【表1】 [Table 1]

【0051】[0051]

【表2】 [Table 2]

【0052】[0052]

【発明の効果】以上説明したように、本発明によれば、
塗装またはフィルムラミネート後に厳しい加工を施され
た際にも加工密着性および加工耐食性に優れ、缶体の薄
肉化に伴う加工度の増大に対応することができるもので
あって、レトルト処理を必要とするような内容物等あら
ゆる内容物に適用可能な、塗装またはフィルムラミネー
ト2ピース缶用表面処理鋼板およびその製造方法が提供
される。このように本発明では、繁雑な工程を経ること
なく、優れた加工密着性および加工耐食性が得られるの
で、その経済的価値は極めて高い。
As described above, according to the present invention,
It is excellent in processing adhesion and processing corrosion resistance even when subjected to severe processing after painting or film lamination, and can respond to increase in processing degree due to thinning of can body, requiring retort treatment Provided are a surface-treated steel sheet for a painted or film-laminated two-piece can and a method for producing the same, which can be applied to all kinds of contents such as the following contents. As described above, according to the present invention, since excellent processing adhesion and processing corrosion resistance can be obtained without going through complicated steps, its economic value is extremely high.

───────────────────────────────────────────────────── フロントページの続き (51)Int.Cl.7 識別記号 FI C23C 22/24 C23C 22/24 28/00 28/00 C C25D 11/38 301 C25D 11/38 301A 303 303 (56)参考文献 特開 昭57−19398(JP,A) 特開 平2−70430(JP,A) 特公 平4−74176(JP,B2) (58)調査した分野(Int.Cl.7,DB名) B05D 1/00 - 7/26 B32B 15/08 104 C23C 22/24 C23C 28/00 C25D 11/38 301 C25D 11/38 303 ────────────────────────────────────────────────── ─── Continued on front page (51) Int.Cl. 7 Identification code FI C23C 22/24 C23C 22/24 28/00 28/00 C C25D 11/38 301 C25D 11/38 301A 303 303 (56) References JP-A-57-19398 (JP, A) JP-A-2-70430 (JP, A) JP-B-4-74176 (JP, B2) (58) Fields investigated (Int. Cl. 7 , DB name) B05D 1/00-7/26 B32B 15/08 104 C23C 22/24 C23C 28/00 C25D 11/38 301 C25D 11/38 303

Claims (4)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】下地鋼板の少なくとも一方の面に、下層が
片面あたり30〜300mg/mの金属クロム層、上
層が片面あたり金属クロム換算で5〜30mg/m
水和クロム酸化物層からなる電解クロメート処理皮膜を
有し、さらにその上層に極性基を分子内に有する分子量
1000以上の有機樹脂を少なくとも1種含み、平均付
着量が固形分濃度として1mg/m 以上100mg/
未満である有機物層を有することを特徴とする、加
工密着性および加工耐食性に優れたフィルムラミネート
2ピース缶用表面処理鋼板。
1. A metal chromium layer having a lower layer of 30 to 300 mg / m 2 per one side and a hydrated chromium oxide layer of 5 to 30 mg / m 2 in terms of metal chromium per one side on at least one surface of a base steel sheet. Comprising at least one organic resin having a molecular weight of 1000 or more and having a polar group in the molecule, and having an average adhesion amount of 1 mg / m 2 or more and 100 mg /
characterized in that it has an organic layer is less than m 2, processability adhesion and processing corrosion resistance superior full I Lum laminated two-piece can for surface treated steel sheet.
【請求項2】前記有機物層は、全有機物重量に対する極
性基の総重量が3%以上であることを特徴とする請求項
1に記載の加工密着性および加工耐食性に優れたフィル
ムラミネート2ピース缶用表面処理鋼板。
Wherein said organic material layer, the processing adhesion and processing corrosion resistance superior full I le according to claim 1, wherein the total weight of the polar group to the total organic matter weight is at least 3% <br /> Surface treated steel sheet for two-piece cans.
【請求項3】前記有機物層の極性基は、シアノ基、アミ
ノ基、アミノカルボン酸基からなる群から選択される少
なくとも1種であることを特徴とする請求項1または請
求項2に記載の加工密着性および加工耐食性に優れたフ
ィルムラミネート2ピース缶用表面処理鋼板。
3. The organic compound layer according to claim 1, wherein the polar group is at least one selected from the group consisting of a cyano group, an amino group, and an aminocarboxylic acid group. excellent full <br/> I Lum laminated two-piece can for surface treated steel sheet processability adhesion and processing corrosion resistance.
【請求項4】鋼板に直接またはクロムめっき後に電解ク
ロメート処理を施すことにより、鋼板の少なくとも一方
の面上に片面あたり30〜300mg/mの金属クロ
ム層およびその上層に片面あたり金属クロム換算で5〜
30mg/mの水和クロム酸化物層の2層を形成し、
水洗または水洗および乾燥の後に、極性基を分子内に
する分子量1000以上の重合体を少なくとも一種含む
有機物を0.3g/l以上の濃度で含む水溶液を塗布
し、次いで乾燥させることにより、平均付着量が固形分
濃度として1mg/m 以上100mg/m 未満であ
る有機物層を形成することを特徴とする、加工密着性お
よび加工耐食性に優れたラミネートフィルム2ピース缶
用表面処理鋼板の製造方法。
4. The steel sheet is subjected to electrolytic chromate treatment directly or after chromium plating, whereby a metal chromium layer of 30 to 300 mg / m 2 per side on at least one side of the steel sheet and a metal chromium layer per side thereof are converted to metal chromium per side. 5-
Forming two layers of 30 mg / m 2 hydrated chromium oxide layer,
After washing or washing and drying, it has a polar group in the molecule
An aqueous solution containing an organic substance containing at least one polymer having a molecular weight of 1000 or more at a concentration of 0.3 g / l or more is applied, and then dried, so that the average adhesion amount becomes a solid content.
The concentration is 1 mg / m 2 or more and less than 100 mg / m 2
That and forming an organic layer, processability adhesiveness and a manufacturing method excellent La Mi sulfonates film two-piece can for surface-treated steel sheet to the processing corrosion resistance.
JP15047795A 1995-06-16 1995-06-16 Surface-treated steel sheet for painted or film-laminated two-piece can with excellent work adhesion and work corrosion resistance, and method for producing the same Expired - Fee Related JP3218927B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP15047795A JP3218927B2 (en) 1995-06-16 1995-06-16 Surface-treated steel sheet for painted or film-laminated two-piece can with excellent work adhesion and work corrosion resistance, and method for producing the same

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP15047795A JP3218927B2 (en) 1995-06-16 1995-06-16 Surface-treated steel sheet for painted or film-laminated two-piece can with excellent work adhesion and work corrosion resistance, and method for producing the same

Publications (2)

Publication Number Publication Date
JPH091060A JPH091060A (en) 1997-01-07
JP3218927B2 true JP3218927B2 (en) 2001-10-15

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
EP1134305A4 (en) * 1999-07-08 2008-07-23 Nippon Steel Corp Steel plate for laminated container, and method for producing can using the same and can

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