JP3845441B2 - Surface-treated steel sheet and manufacturing method thereof - Google Patents

Description

【００６７】
【表２】

【００６８】
【表３】

【００６９】
【表４】

【００７０】
表３及び４より、第１発明範囲内の皮膜が形成されている鋼板は、第１発明範囲を外れる皮膜が形成されている比較例の鋼板に比べて、皮膜健全部は勿論、加工部での耐食性が著しく向上している。また、第１発明範囲内の皮膜が形成されたAlを4重量％以上含む鋼板では第１発明範囲を外れる皮膜が形成されたAlを4重量％以上含む比較例の鋼板に比べて耐黒変性、即ちAlを4〜25重量％含むZn-Al系めっき鋼板ではスタック状態での耐黒変性、Alを25超〜75重量％含むZn-Al系めっき鋼板では湿潤環境下での耐黒変性が改善されている。
【００７１】
また、第１発明範囲内の皮膜を形成するに際して、第３発明範囲内の条件で製造された鋼板は良好な皮膜品質が得られている。一方、第３発明範囲外の乾燥温度で皮膜形成された比較例の鋼板（ No.26,29 ）は、皮膜品質が劣っている。
【００７２】
（実施例２）
処理原板として表１に示す亜鉛系めっき鋼板を使用し、表５及び６に示すような処理液組成、乾燥温度のもとで、ロールコーターによる塗布を行い、水洗しないで加熱乾燥し、化成処理皮膜を形成した。付着量は、塗布量、ロールコーターの周速、圧下量などで制御した。ここで、化成処理皮膜中の亜鉛、アルミニウムのいずれか１種または２種とリン酸とからなる化合物（表５及び６中では「Zn,Al-リン酸」）は表２に示す。得られた表面処理鋼板の品質評価は以下のようにして行った。
【００７３】
▲１▼加工部耐食性
サンプル表面に幅0.3mm、長さ5cmにわたって、鉄地に達する切り込みをカッターナイフで入れ、JIS Z2371に準拠した塩水噴霧試験を200時間行った。評価は、切り込み線の両側5mmづつの領域内における錆発生面積率で、実施例１と同じ基準で行った。なお、錆の状態（色調）は、実施例１の加工部耐食性評価の場合と同じである。
【００７４】
▲２▼皮膜健全部耐食性
傷や折り曲げなどの加工を施していないサンプルについて、上記の塩水噴霧試験を400時間行い、サンプル表面の錆発生面積率に基づいて実施例１と同じ基準で評価した。なお、錆の状態は上記の加工部耐食性評価の場合と同じである。
【００７５】
▲３▼耐黒変性
Alを4重量％以上含むZn-Al系めっき鋼板について、実施例１と同様にして、耐黒変性の評価を行った。
評価結果を表５及び６に示す。
【００７６】
【表５】

【００７７】
【表６】

【００７８】
表５及び６より、第１発明範囲内の皮膜が形成されている鋼板は、第１発明範囲を外れる皮膜が形成されている比較例の鋼板に比べて、皮膜健全部は勿論、加工部での耐食性が著しく向上している。また、第１発明範囲内の皮膜が形成されたAlを4重量％以上含む鋼板では第１発明範囲を外れる皮膜が形成されたAlを4重量％以上含む比較例の鋼板に比べて耐黒変性、即ちAlを4〜25重量％含むZn-Al系めっき鋼板ではスタック状態での耐黒変性、Alを25超〜75重量％含むZn-Al系めっき鋼板では湿潤環境下での耐黒変性が改善されている。
【００７９】
また、第１発明範囲内の皮膜を形成するに際して、第３発明範囲内の乾燥温度で皮膜形成された鋼板は、第３発明範囲外の乾燥温度で皮膜形成された比較例の鋼板（ No.26,29 ）に比べて良好な皮膜品質が得られている。また第５発明範囲内のCr還元率の処理液を用いた場合、第５発明範囲を下回るCr還元率の処理液を用いた場合（ No.30 ）に比べて、より良好な皮膜品質が得られている。なお、第５発明範囲を上回るCr還元率の処理液(No.33)では処理液がゲル化したため鋼板の品質評価を行わなかった。
【００８０】
（実施例３）
処理原板として表１に示す亜鉛系めっき鋼板を、３価クロム化合物として表７に示すクロム塩類を使用し、表８及び９に示すような処理液組成、乾燥温度のもとで、ロールコーターによる塗布を行い、水洗しないで加熱乾燥し、化成処理皮膜を形成した。付着量は、塗布量、ロールコーターの周速、圧下量などで制御した。ここで、化成処理皮膜中の亜鉛、アルミニウムのいずれか１種または２種とリン酸とからなる化合物（表８及び９中では「Zn,Al-リン酸」）は表２に示す。得られた表面処理鋼板の品質評価は以下のようにして行った。
【００８１】
▲１▼加工部耐食性
サンプル表面に幅0.3mm、長さ5cmにわたって、鉄地に達する切り込みをカッターナイフで入れ、以下の複合腐食試験を200サイクル行った。
3wt%塩水噴霧試験（30℃；0.5時間）
↓
湿潤試験（30℃、95%RH；1.5時間）
評価は、切り込み線の両側5mmづつの領域内における錆発生面積率で、実施例１と同じ基準で行った。なお、錆の状態（色調）は、実施例１の加工部耐食性評価の場合と同じである。
【００８２】
▲２▼皮膜健全部耐食性
傷や折り曲げなどの加工を施していないサンプルについて、上記の複合腐食試験を300サイクル行い、サンプル表面の錆発生面積率に基づいて上記と同じ基準で評価した。なお、錆の状態は上記の加工部耐食性評価の場合と同じである。
【００８３】
▲３▼耐黒変性
Alを4重量％以上含むZn-Al系めっき鋼板について、実施例１と同様にして、耐黒変性の評価を行った。
評価結果を表８及び９に示す。
【００８４】
【表７】

【００８５】
【表８】

【００８６】
【表９】

【００８７】
表８及び９より、第１発明範囲内の皮膜が形成されている鋼板は、第１発明範囲を外れる皮膜が形成されている比較例の鋼板に比べて、皮膜健全部は勿論、加工部での耐食性が著しく向上している。No.17,30 〜 32の比較から分かるように、３価クロム化合物としてカルボン酸クロムを用いた場合(No.17,32)、耐食性、耐黒変性がより優れている。
【００８８】
また、第１発明範囲内の皮膜が形成されたAlを4重量％以上含む鋼板では第１発明範囲を外れる皮膜が形成されたAlを4重量％以上含む比較例の鋼板に比べて耐黒変性、即ちAlを4〜25重量％含むZn-Al系めっき鋼板ではスタック状態での耐黒変性、Alを25超〜75重量％含むZn-Al系めっき鋼板では湿潤環境下での耐黒変性が改善されている。
【００８９】
また、第１発明範囲内の皮膜を形成するに際して、第６発明範囲内の条件で製造された鋼板は良好な皮膜品質が得られている。一方、第６発明範囲外の乾燥温度で皮膜形成された比較例の鋼板（ No.26,29 ）は皮膜品質が劣っている。
【００９０】
【発明の効果】
本発明によれば、６価クロムによる自己補修効果だけでは得られない優れた加工部や傷部の耐食性を有する表面処理鋼板が得られる。
【００９１】
特に、亜鉛系めっき鋼板がアルミニウムを4〜25重量％含むZn-Al系めっき鋼板の場合、加工部耐食性と更にスタック状態での耐黒変性にも優れる表面処理鋼板が得られる。
【００９２】
また、亜鉛系めっき鋼板がアルミニウムを25超〜75重量％含むZn-Al系めっき鋼板の場合、加工部耐食性と更に湿潤環境下における耐黒変性にも優れる表面処理鋼板が得られる。[0001]
BACKGROUND OF THE INVENTION
  The present invention is used for home appliances, building materials and the like.A surface-treated steel sheet,Excellent processed part corrosion resistanceAnd havingSurface-treated steel sheet with excellent blackening resistanceAnd itsIt relates to a manufacturing method.
[0002]
[Prior art]
Conventionally, the chromate treatment film was formed on the surface as a primary rust prevention treatment until the galvanized steel sheet was used by customers. It has come to be.
[0003]
In addition, among zinc-based plated steel sheets, Zn-Al-based plated steel sheets obtained by alloying Zn and Al have higher corrosion resistance than galvanized steel sheets, and therefore the demand is increasing mainly in the building material field.
[0004]
  However, against the backdrop of recent advances in durability and maintenance-free in the field of building materials, it is required that the original appearance surface of Zn-Al-based plated steel sheets can be maintained over a long period of time for various environments and shapes. It has become like this. Specifically, with respect to the chromate treatment film that has been formed on the surface as a primary rust prevention treatment until used by customers in the past, Zn-5% Al alloy plated steel sheet containing about 5% aluminum, (a) Function that exhibits high corrosion resistance even after machining in a corrosive environment (corrosion resistance on the machined part) and (b)ConstructionThere has been a demand for a function (blackening resistance at the time of stacking) that suppresses the blackening phenomenon that the plating surface becomes black when the sheet materials are stored outdoors for several days. In addition, the Zn-55% Al alloy-plated steel sheet containing about 55% aluminum contains (a) a function that exhibits high corrosion resistance even after machining in a corrosive environment (processed part corrosion resistance) and (b) a plated surface in a wet environment. A function of suppressing blackening phenomenon (blackening resistance in a wet environment) has been demanded.
[0005]
The chromate treatment film is roughly divided into three types. Electrolytic chromate treatment film composed mainly of a trivalent chromium compound, reactive chromate treatment film, and coating type chromate treatment comprising a compound of trivalent chromium and hexavalent chromium. Divided into films.
[0006]
In these chromate-treated films, trivalent chromium compounds, which are poorly soluble, act as a barrier to corrosion factors such as chloride ions and oxygen (barrier effect). In addition, the hexavalent chromium in the film is eluted, and has an effect of suppressing corrosion (self-repair effect) by passivating the damaged part of the film.
[0007]
For this reason, when the corrosion resistance of the processed part is required, a coating type chromate film is often applied. However, hexavalent chromium has a strong oxidizing property and is easily reduced to trivalent chromium with time. In many cases, the hexavalent chromium that sufficiently exhibits the self-repair effect does not remain in the film when the film is damaged. Satisfactory processed part corrosion resistance could not be obtained.
[0008]
There are several known techniques for solving this problem, but roughly divided into the following two methods.
(1) How to reduce the degree of film damage
For example, JP-A-2-34792 discloses a method of adding a fluorine-based resin in a chromate film to impart lubricity, and JP-A-10-176280 discloses a method of adding a thermoplastic elastomer and ductility. Both of the methods are intended to reduce the degree of film damage caused by sliding such as pressing, and to obtain a self-repair effect with a smaller amount of hexavalent chromium.
(2) Method of suppressing the elution amount of hexavalent chromium in the film
For example, in Japanese Patent Publication No. 9-800337, by dispersing a sparingly soluble chromate salt in the film, chromium is not eluted in the healthy part of the film, and corrosion reaction (pH increase) is caused in the damaged part of the film. As a trigger, the purpose is to elute hexavalent chromium and express self-repair effect.
[0009]
According to the above method (1), although the degree of damage to the film can be reduced and the self-repair effect can be exhibited to some extent by pressing or bending, it can be in contact with sharp metal pieces. The effect of reducing the damage to the film cannot be obtained on the part damaged by the damage. In addition, the resin to be contained is expensive, and there is a problem in terms of economy and productivity, such as reducing the stability of the treatment liquid.
[0010]
On the other hand, according to the above method (2), the durability of the self-repair effect is improved as compared with the case where water-soluble chromic acid is applied and a film is formed. In addition, it is only at the same level as immediately after the formation of a film containing a highly water-soluble chromium compound, and in general, a film containing chromate is easily colored, and it is remarkably difficult for parts used without coating. Problems such as lowering the value of merchandise also occur.
[0011]
On the other hand, Zn-Al-based plated steel sheet synergizes both sacrificial anticorrosive ability by Zn and passive film forming ability by Al, and provides excellent corrosion resistance. However, since Al is an active metal by nature, when the passive film is damaged, the blackening phenomenon easily occurs in a wet environment.
[0012]
As a method of suppressing the blackening phenomenon of the Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum,
(1) A method of treating with a solution containing Ni ions or Co ions after plating (Japanese Patent Laid-Open No. 59-177381),
(2) Method of heat treatment after skin pass rolling (Japanese Patent Laid-Open No. 55-131178),
(3) A method of cleaning the plating surface with an alkaline aqueous solution (Japanese Patent Laid-Open No. 61-110777),
(4) A method of performing blasting after plating and before chromating (JP-A-63-166974),
Etc. are disclosed.
[0013]
In fact, by applying the above prior art, the blackening resistance of the Zn—Al-based plated steel sheet containing 4 to 25% by weight of aluminum has an improvement effect in a normal wet environment. However, Zn-Al-based steel sheets containing 4 to 25% by weight of aluminum are stored outdoors (stacked state) in the form of sheets or roll forming, etc., during the construction period of roofs, outer walls, etc. In such a case, the surface of the steel sheet easily becomes wet due to condensation in the natural environment, and there is a problem that the black color changes even if left for 1 to 2 days.
[0014]
In addition, each of the above methods requires special processing equipment, and thus there are problems in terms of economy and productivity.
[0015]
In addition, as a method for suppressing the blackening phenomenon of a Zn-Al-based plated steel sheet containing aluminum in an amount of more than 25 to 75% by weight, in Japanese Patent Publication No. 1-53353, chromic acid and resin are mixed at a certain ratio or more. Disclosed is a method for preventing chromic acid from directly reacting with plating and improving blackening resistance by treatment with a treatment solution. Further, as a method for suppressing blackening phenomenon performed in a Zn-5% Al alloy plated steel sheet or the like, the chromate after plating described in JP-A-59-177381 and JP-A-63-65088 is disclosed. As a pretreatment for performing the treatment, a method of treating with Ni or Co is shown.
[0016]
However, the method of treating with a treatment liquid in which chromic acid and resin are mixed at a certain ratio or more has an effect of improving the blackening resistance of Zn-Al-based plated steel sheets containing aluminum in excess of 25 to 75% by weight to some extent. However, it is not perfect, rather, mixing the resin more than a certain ratio significantly shortens the life of the processing solution, and it is disadvantageous in that it is disadvantageous in terms of cost because a resin that can withstand the strong oxidizing power of chromic acid is applied. large.
[0017]
Further, pretreatment with Ni, Co or the like may improve the blackening resistance at the time of stacking, but it is disadvantageous in terms of cost because an expensive metal is used.
[0018]
[Problems to be solved by the invention]
  The present inventionThe purpose ofA surface-treated steel sheet that solves the above technical problems and has excellent processed and scratched corrosion resistance that cannot be obtained only by the self-repair effect of hexavalent chromium.Especially aluminum Four ~ twenty five Including weight% Zn-Al Surface-treated steel sheet with excellent corrosion resistance and blackening resistance under wet conditions, and aluminum twenty five Super~ 75 Including weight% Zn-Al An object of the present invention is to obtain a surface-treated steel sheet that is excellent in corrosion resistance in a processed portion and in blackness resistance in a stack state based on a galvanized steel sheet.
[0021]
  Furthermore, the present inventionThe other purpose ofAnd a method for producing the surface-treated steel sheetThere is.
[0022]
[Means for Solving the Problems]
  The gist of the present invention for solving the above problems is as follows.
(1) On the surface of a Zn-Al-based plated steel sheet containing 4 to 25% by weight or more than 25 to 75% by weight of aluminum in the plating film, (A) 0.1 to 100 mg / m of chromium², (B)One or more selected from calcium oxide, calcium silicate, calcium carbonate, calcium phosphate, calcium molybdate, calcium phosphate / zinc, calcium phosphate / magnesium, calcium molybdate / zincCalcium compoundThing is0.1 to 200 mg / m as calcium², (C) A compound consisting of either one or two of zinc and aluminum and phosphoric acid is 0.1 to 100 mg / m in terms of phosphorus.²A surface-treated steel sheet (first invention), characterized in that a film contained in the range is formed.
[0025]
( 2 )In producing the surface-treated steel sheet according to the above (1), the surface of the Zn-Al-based plated steel sheet containing 4 to 25% by weight or more than 25 to 75% by weight of aluminum in the plating film,One or more selected from calcium oxide, calcium silicate, calcium carbonate, calcium phosphate, calcium molybdate, calcium phosphate / zinc, calcium phosphate / magnesium, calcium molybdate / zincCalcium compoundThings and, Zinc or aluminum, and a treatment liquid containing phosphoric acid, and (i) hexavalent chromium ions in an amount of 0.1 to 50 g / l. And (ii) applying a treatment solution containing 1 to 50 g / l of calcium and (iii) 1 to 50 g / l of phosphoric acid, and heating the plate at a maximum plate temperature of 60 to 300 ° C. without washing with water. A method for producing a surface-treated steel sheet, characterized in that a film is formed by(Second invention).
[0026]
( Three )The trivalent chromium ion / (trivalent chromium ion + hexavalent chromium ion) weight ratio in the treatment liquid is 0.2 to 0.8.( 2 )Manufacturing method of the surface-treated steel sheet as described(Third invention).
[0027]
( Four )In producing the surface-treated steel sheet described in (1) above, the chromium compound is trivalent chromium on the surface of the Zn-Al-based plated steel sheet containing 4 to 25% by weight or more than 25 to 75% by weight of aluminum in the plating film. A water-soluble chromium compound comprising a compound;One or more selected from calcium oxide, calcium silicate, calcium carbonate, calcium phosphate, calcium molybdate, calcium phosphate / zinc, calcium phosphate / magnesium, calcium molybdate / zincCalcium compoundThings and, Zinc or aluminum, and a treatment liquid containing phosphoric acid and a treatment liquid containing (i) trivalent chromium ions in an amount of 0.1 to 50 g / l. And (ii) applying a treatment solution containing 1 to 50 g / l of calcium and (iii) 1 to 50 g / l of phosphoric acid, and heating the plate at a maximum plate temperature of 60 to 300 ° C. without washing with water. A method for producing a surface-treated steel sheet, characterized in that a film is formed by(Fourth invention).
[0028]
( Five )The water-soluble chromium compound is chromium carboxylate,( Four )Manufacturing method of the surface-treated steel sheet as described(Fifth invention).
[0029]
DETAILED DESCRIPTION OF THE INVENTION
  The details of the present invention and the reasons for limitation will be described below.
  Base galvanized steel sheetThe aluminum in the plating film Four ~ twenty five % By weight or twenty five Super~ 75 Including weight%Zn-Al plated steel sheet (for example, Zn-5% Al alloy plated steel sheet, Zn-55% Al alloy plated steel sheet)It is.
[0030]
  AlA Zn-Al plated steel sheet containing 4 to 25% by weight of aluminum contains Al: 4 to 25% by weight as an essential component, and also contains trace amounts of elements such as La, Ce, Mg, and Si as necessary. It is a Zn-Al plated steel sheet. This includes so-called Zn-5% Al alloy-plated steel sheets.
[0031]
  AlZn-Al-based plated steel sheet containing more than 25 to 75% by weight of aluminum includes Al: more than 25 to 75% by weight as an essential component, and trace amounts of elements such as La, Ce, Mg, Si, etc. It is a Zn-Al plated steel sheet. This includes so-called Zn-55% Al alloy-plated steel sheets.
[0032]
As a method for plating the steel plate described above, any feasible method among an electrolytic method, a melting method, and a vapor phase method may be adopted.
[0033]
When coating and forming the coating of the present invention on these plating surfaces, any alkaline degreasing, solvent degreasing, or surface conditioning treatment (alkaline surface conditioning) is performed on the plating surface in advance as necessary so that coating defects and unevenness do not occur. Treatment, acidic surface conditioning treatment). In addition, from the viewpoint of further improving the blackening prevention effect in the usage environment of the steel sheet on which the coating film of the present invention is formed, iron group metal ions (Ni ions, Co ions, Fe ions) are included in advance on the plating surface as necessary. An acidic or alkaline surface conditioning treatment can also be performed. In addition, when electrogalvanizing is used as a base, in order to further improve the blackening prevention effect, iron group metal ions (Ni ions, Co ions, Fe ions) are contained in the electroplating bath, and these are contained in the plating film. This metal can be contained in an amount of 1 ppm or more. In this case, the upper limit of the iron group metal concentration in the plating film is not particularly limited.
[0034]
  The feature of the present invention is thatthe above Zn-Al system(A) Chromium has a barrier effect on the surface of the plated steel sheet, (B) has a self-repair effectCalcium compoundsAnd (C) forming a chemical conversion film containing a compound formed by phosphoric acid and any one or two of zinc and aluminum.
[0035]
Here, the adhesion amount of chromium in the film is 0.1 mg / m²100 mg / m or more²The following is preferred. 0.1mg / m²Less than 100 mg / m, the barrier effect due to chromium is not fully exhibited.²If it is too high, the effect of improving the barrier effect cannot be expected for a significantly longer processing time. Desirably, 10 mg / m²More than 70mg / m²The following is more preferable.
[0036]
  In the filmCalcium compoundsAs for the limitation in particularNot oxidationKarshiOther than um, Calcium silicate, calcium carbonate, calcium phosphate, calcium molybdate etc.Simple salt,Any of a double salt containing calcium and a cation other than calcium, such as calcium phosphate / zinc, calcium phosphate / magnesium, calcium molybdate / zinc, or the like, may be mixed. As its manifestation mechanism, in the damaged part of the film in a corrosive environment or in a wet environment, base calcium elutes preferentially over the plated metal, and the eluted calcium precipitates in the damaged part of the film while suppressing the dissolution of the plated metal. By doing so, a protective film is formed. With this, it is considered that excellent corrosion resistance and blackening resistance are exhibited in Zn-Al-based plated steel sheets containing 4 to 25% by weight of aluminum and Zn-Al-based plated steel sheets containing more than 25 to 75% by weight of aluminum. It is done.
[0037]
The amount of calcium adhered in the film is 0.1 mg / m²More than 200mg / m²The following is preferred. 0.1mg / m²Below, the self-repair effect by calcium is poor. Moreover, in the Zn-Al type plated steel sheet containing 4 to 25% by weight of aluminum and the Zn-Al type plated steel sheet containing more than 25 to 75% by weight of aluminum, the effect of developing the corrosion resistance and blackening resistance due to calcium becomes poor. 200mg / m²If it is too high, the elution amount of calcium becomes excessive, and the corrosion resistance of the film healthy part (the part that is not damaged by the process or the like) decreases. Desirably, 10 mg / m²100 mg / m or more²The following is more preferable.
[0038]
  On the other hand, a compound comprising one or two of zinc and aluminum and phosphoric acid,Ie phosphateIs not limited to the phosphate ion skeleton or the degree of condensation, and may be any of normal salt, dihydrogen salt, monohydrogen salt or phosphite. And all condensed phosphates such as polyphosphates. As a mechanism of its manifestation, it is considered that phosphate ions dissociated by hydrolysis cause complex formation reaction with the eluted metal in the damaged part of the film in a corrosive environment, triggered by elution of the plated metal. .
[0039]
The adhesion amount of the compound consisting of either one or two of zinc and aluminum in the film and phosphoric acid is 0.1 mg / m in terms of phosphorus.²100 mg / m or more²The following is preferred. 0.1mg / m²If it is less than 1, the self-repair effect by the compound which consists of either 1 type or 2 types of zinc and aluminum, and phosphoric acid will become scarce. Moreover, in the Zn-Al type plated steel sheet containing 4 to 25% by weight of aluminum and the Zn-Al type plated steel sheet containing more than 25 to 75% by weight of aluminum, either or both of zinc and aluminum and phosphoric acid are used. The effect of developing the corrosion resistance and blackening resistance due to the compound becomes poor. 100mg / m²In the super-high, the self-repair improvement effect cannot be expected for the processing cost increase, and in the Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum and the Zn-Al-based plated steel sheet containing more than 25 to 75% by weight of aluminum. However, the improvement effect of the corrosion resistance and blackening resistance cannot be expected for the processing cost. Desirably, 1 mg / m²More than 50mg / m²The following is more preferable.
[0040]
  Of the above three compounds, (A) chromium and (B)Calcium compounds, Or (A) inclusion of a compound consisting of one or two of chromium, (C) zinc, and aluminum and phosphoric acid has the effect of improving the corrosion resistance of the processed part, but the above three compounds coexist. By doing so, the corrosion resistance of the processed part can be remarkably improved. In addition, a Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum and a Zn-Al-based plated steel sheet containing more than 25 to 75% by weight of aluminum can be expected to have a significant improvement in blackening resistance.
[0041]
As this mechanism,
(1) In a corrosive environment, calcium elutes preferentially over plated metal.
(2) As a result, a hydrolysis reaction of a compound composed of one or two of zinc and aluminum and phosphoric acid occurs and dissociates into phosphate ions.
(3) Phosphate ions having a high complexing ability cause a complexing reaction with calcium ions to form a dense and hardly soluble protective film.
Therefore, the corrosion reaction can be suppressed earlier. Moreover, the blackening phenomenon can be suppressed in a Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum and a Zn-Al-based plated steel sheet containing more than 25 to 75% by weight of aluminum.
[0042]
Further, in addition to the above-mentioned film constituent materials, oxide fine particles such as silicon oxide, aluminum oxide, zirconium oxide, titanium oxide, cerium oxide, and antimony oxide can be contained.
[0043]
In addition to the above-mentioned film constituent materials, organic polymer resins such as epoxy resins, polyhydroxy polyether resins, acrylic copolymer resins, ethylene-acrylic acid copolymer resins, alkyd resins, polybutadiene resins , Phenol resin, polyurethane resin, polyamine resin, polyphenylene resin and the like.
[0044]
  In the present invention, a water-soluble chromium compound,Calcium compoundsWhen,A compound comprising one or two of zinc and aluminum and phosphoric acid;phosphoric acidincludingA treatment liquid comprising: (i) hexavalent chromium ions of 0.1 to 50 g / l; (ii) calcium of 1 to 50 g / l; and (iii) phosphoric acid of 1 to 50 g / l. By applying the treatment liquid containing and heating it in the range of the maximum reached plate temperature of 60-300 ° C without washing with water, forming a chemical conversion treatment film, the corrosion resistance of the processed partoutstandingA surface-treated steel sheet can be manufactured. Further, any of the Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum and the Zn-Al-based plated steel sheet containing more than 25 to 75% by weight of aluminum will be further excellent in blackening resistance.
[0045]
Here, if the hexavalent chromium ion concentration is less than 0.1 g / l, the coating amount must be remarkably increased in order to obtain the desired chromium adhesion amount, and uneven coating tends to occur, and if it exceeds 50 g / l, Since the reactivity of the treatment liquid is extremely high, the amount of dissolution of the plating film increases, which decreases the stability of the treatment liquid, which is not preferable.
[0046]
Further, the hexavalent chromium ion species is not particularly limited as long as it is water-soluble, and examples thereof include chromic acid and ammonium chromate, and hardly soluble chromium compounds such as zinc chromate and chromic acid. Strontium, barium chromate, etc. are not applicable.
[0047]
In the water-soluble chromium compound, the weight ratio of trivalent chromium ion / (trivalent chromium ion + hexavalent chromium ion) (converted to metal chromium) is more preferably 0.2 to 0.8, and the processed portion has excellent corrosion resistance. A surface-treated steel sheet can be manufactured. In addition, the Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum and the Zn-Al-based plated steel sheet containing more than 25 to 75% by weight of aluminum are further excellent in blackening resistance.
[0048]
Here, when the trivalent chromium ion / (trivalent chromium ion + hexavalent chromium ion) weight ratio (in terms of chromium metal) is less than 0.2, the hexavalent chromium ion concentration in the film becomes excessive, and the film hardly soluble, In addition, in a corrosive environment, it does not contribute to corrosion resistance, and Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum and Zn-Al-based plated steel sheet containing more than 25 to 75% by weight of aluminum are resistant to blackening resistance. The amount of elution increases without contributing, which is not preferable from the viewpoint of economy and environmental compatibility. If it exceeds 0.8, the treatment liquid is easily gelled and the stability of the treatment liquid is remarkably lowered.
[0049]
  In the present invention, the chromium compound is a water-soluble chromium compound composed of a trivalent chromium compound,Calcium compoundsWhen,A compound comprising one or two of zinc and aluminum and phosphoric acid;phosphoric acidincludingA treatment liquid comprising: (i) trivalent chromium ions at 0.1 to 50 g / l; (ii) calcium at 1 to 50 g / l; and (iii) phosphoric acid at 1 to 50 g / l. By applying a treatment liquid containing it and heating it in the range of the highest plate temperature of 60 to 300 ° C without washing with water, it is excellent in corrosion resistance of the processed part and Zn containing 4 to 25 wt% of aluminum -Al-plated steel sheets and Zn-Al-plated steel sheets containing more than 25 to 75% by weight of aluminum are further excellent in blackening resistance. In the method of the present invention, since hexavalent chromium ions are not included in the treatment solution, there is no problem of elution of hexavalent chromium outside the system when using a steel sheet, and high self-repairability is achieved without relying on hexavalent chromium. Can demonstrate.
[0050]
Here, if the trivalent chromium ion concentration is less than 0.1 g / l, the coating amount must be remarkably increased in order to obtain a desired chromium adhesion amount, and uneven coating tends to occur, and if it exceeds 50 g / l, Since the reactivity of the treatment liquid is extremely high, the amount of dissolution of the plating film increases, which decreases the stability of the treatment liquid, which is not preferable.
[0051]
The trivalent chromium compound is not particularly limited as long as it is water-soluble, and examples thereof include chromium chloride, chromium sulfate, chromium acetate, chromium formate, and the like. Chromium acid is preferred.
[0052]
  Coexist with water-soluble chromium compoundCalcium compoundsAs for, there is no particular limitation, oxidized calciumOther than um, Calcium silicate, calcium carbonate, calcium phosphate, calcium molybdate etc.Simple salt,Calcium phosphate / zinc, calcium phosphate / magnesium, calcium molybdate / zinc, etc. may be any of double salts containing calcium and cations other than calcium, and these may be mixed.Good.
[0053]
In addition, if the calcium concentration is less than 1 g / l, the formed film cannot contain enough calcium to exhibit a self-repair effect, and the Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum, aluminum In any of the Zn-Al-based plated steel sheets containing more than 25 to 75% by weight, the formed film cannot contain calcium enough to exhibit sufficient processed part corrosion resistance and blackening resistance. On the other hand, if it exceeds 50 g / l, the calcium content in the film is remarkably increased and the corrosion resistance of the sound part of the film is lowered, which is not preferable.
[0054]
  Also coexist with water-soluble chromium compoundsPhosphateAs, there is no particular limitation, it is not limited to the phosphate ion skeleton or condensation degree, and may be any of a normal salt, dihydrogen salt, monohydrogen salt or phosphite, In addition to orthophosphate, any condensed phosphate such as polyphosphate may be used, or these may be mixed.Good.
[0055]
  In addition, phosphoric acidofIf the concentration is less than 1 g / l, the formed film cannot contain phosphoric acid sufficient to exhibit a sufficient self-repair effect, and a Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum and 25% aluminum. In any Zn-Al-based plated steel sheet containing more than 75 wt%, the effect of developing the corrosion resistance and blackening resistance due to phosphoric acid becomes poor. On the other hand, if it exceeds 50 g / l, the reactivity of the treatment liquid is extremely high, so that the dissolution amount of the plating film increases, and the stability of the treatment liquid is lowered by the eluted zinc.
[0056]
Furthermore, inorganic acids such as boric acid, sulfuric acid, and nitric acid can be contained as a film forming aid.
[0057]
The method for applying the treatment liquid described above is not particularly limited, and examples thereof include application by a roll coater and a ringer roll, application by immersion and air knife squeezing, and the like.
[0058]
Moreover, after application | coating, it is preferable to heat in the range of the highest ultimate board temperature 60-300 degreeC, without washing with water. Here, if the maximum plate temperature is less than 60 ° C, a trivalent chromium compound having a high barrier effect is not sufficiently formed, and if it exceeds 300 ° C, innumerable cracks are generated to the extent that the self-repair effect is not exerted on the film. In either case, the corrosion resistance of the processed part and the sound part of the film is significantly reduced.
[0059]
【Example】
(Example 1)
Using the zinc-based plated steel sheet shown in Table 1 as the processing original plate, applying with a roll coater under the treatment liquid composition and drying temperature as shown in Tables 3 and 4, heating and drying without washing, and chemical conversion treatment A film was formed. The adhesion amount was controlled by the coating amount, the peripheral speed of the roll coater, the reduction amount, and the like. Here, Table 2 shows compounds composed of either one or two of zinc and aluminum in the chemical conversion film and phosphoric acid (in Tables 3 and 4, “Zn, Al-phosphoric acid”). Quality evaluation of the obtained surface-treated steel sheet was performed as follows.
[0060]
( 1 )Corrosion resistance of processed parts
  A notch reaching the iron ground was made with a cutter knife over a width of 0.3 mm and a length of 5 cm on the sample surface, and the following combined corrosion test was performed 200 cycles.
[0061]
  3wt% salt spray test (30 ℃; 0.5 hours)
    ↓
  Wet test (30 ° C, 95% RH; 1.5 hours)
    ↓
  Hot air drying test (50 ℃, 20% RH; 2.0 hours)
    ↓
  Hot air drying test (30 ℃, 20% RH; 2.0 hours)
  The evaluation was performed based on the rust generation area ratio in a region of 5 mm on both sides of the score line. The state of rust (color tone) generated depends on the Al concentration of the plating film.And AlWhite rust occurred in Zn-Al-based plated steel sheets having a concentration of 25% by weight or less, and gray to black rust occurred in Zn-Al-based plated steel sheets having an Al concentration of more than 25 to 75% by weight.
  ◎: No rust generation
  ○ +: Rust generation area ratio less than 5%
  ○: Rust generation area ratio 5% or more and less than 10%
  ○-: Rust generation area ratio 10% or more and less than 25%
  Δ: Rust generation area ratio 25% or more and less than 50%
  ×: Rust generation area ratio 50% or more
[0062]
( 2 )Corrosion resistance of the coating healthy part
  The composite corrosion test was performed for 300 cycles on the sample that was not subjected to processing such as scratching or bending, and evaluation was performed based on the same standard as above based on the rust generation area ratio of the sample surface. In addition, the state of rust is the same as the case of said process part corrosion resistance evaluation.
[0063]
( Three )Blackening resistance
  The Zn-Al plated steel sheet containing 4% by weight or more of Al was evaluated for resistance to blackening. Specifically, the following two methods were performed according to the Al concentration.
[0064]
(Zn-Al plated steel sheet with an Al concentration of 4 to 25% by weight:No.1)
  Samples that have not been processed such as scratches or bends are placed in a stack state and left in a wet testing machine (HCT) for 6 days.The sample appearance is visually observed, and blackening resistance is reduced by the degree of blackening and blackening area. Evaluation was made according to the following criteria.
  A: No change in appearance before and after the test
  ○: Slight punctate appearance change after test (area: less than 10%)
  Δ: Surface appearance change after test (area: 10% or more and less than 50%)
  ×: There are 50% or more of blackened areas or surface appearance-changed areas that are obvious after the test.
[0065]
(Zn-Al plated steel sheet with Al concentration of more than 25 to 75% by weight:No.2)
  Change in whiteness (L value) ΔL (before test) when left untreated for 24 hours in a thermo-hygrostat controlled at 80 ° C and 95% RH relative to a sample that has not been scratched or bent L value-L value after test) was measured and evaluated according to the following criteria.
  A: ΔL ≧ −1.0
  ○: -1.0> ΔL ≧ -2.0
  Δ: -2.0> ΔL ≧ -4.0
  ×: -4.0> ΔL
  The evaluation results are shown in Tables 3 and 4.
[0066]
[Table 1]

[0067]
[Table 2]

[0068]
[Table 3]

[0069]
[Table 4]

[0070]
  From Tables 3 and 4, the steel sheet on which the film within the first invention range is formed is, of course, the processed part, as well as the film sound part, compared with the steel sheet of the comparative example in which the film outside the first invention range is formed. Corrosion resistance is significantly improved.Also,The steel sheet containing 4% by weight or more of Al on which the film within the first invention range is formed has a resistance to blackening compared to the steel sheet of the comparative example containing 4% by weight or more of Al on which the film outside the scope of the first invention is formed. Zn-Al plated steel sheet containing 4 to 25% by weight of Al improves blackening resistance in a stack state, and Zn-Al plated steel sheet containing more than 25 to 75% by weight of Al improves blackening resistance in a wet environment. ing.
[0071]
  In forming a film within the scope of the first invention,Third inventionA steel sheet manufactured under conditions within the range has a good film quality. on the other hand,Third inventionSteel sheet of comparative example formed with a film at a drying temperature outside the range( No.26,29 )Has poor film quality.
[0072]
(Example 2)
Using the zinc-based plated steel plate shown in Table 1 as the processing raw plate, applying with a roll coater under the treatment liquid composition and drying temperature as shown in Tables 5 and 6, heating and drying without washing, and chemical conversion treatment A film was formed. The adhesion amount was controlled by the coating amount, the peripheral speed of the roll coater, the reduction amount, and the like. Here, Table 2 shows compounds composed of either one or two of zinc and aluminum in the chemical conversion film and phosphoric acid (in Tables 5 and 6, "Zn, Al-phosphoric acid"). Quality evaluation of the obtained surface-treated steel sheet was performed as follows.
[0073]
(1) Corrosion resistance of processed parts
An incision reaching the iron ground was made on the sample surface over a width of 0.3 mm and a length of 5 cm with a cutter knife, and a salt spray test in accordance with JIS Z2371 was conducted for 200 hours. The evaluation was performed based on the same rusting area ratio as the rust generation area ratio in a region of 5 mm on both sides of the cut line. In addition, the state (color tone) of rust is the same as that in the case of the processed portion corrosion resistance evaluation of Example 1.
[0074]
(2) Corrosion resistance of the coating healthy part
About the sample which has not performed processing, such as a crack and bending, said salt spray test was done for 400 hours, and it evaluated on the same standard as Example 1 based on the rust generating area rate of the sample surface. In addition, the state of rust is the same as the case of said process part corrosion resistance evaluation.
[0075]
(3) Blackening resistance
With respect to the Zn—Al-based plated steel sheet containing 4% by weight or more of Al, the blackening resistance was evaluated in the same manner as in Example 1.
The evaluation results are shown in Tables 5 and 6.
[0076]
[Table 5]

[0077]
[Table 6]

[0078]
  From Tables 5 and 6, the steel sheet on which the film within the first invention range is formed is, of course, the processed part as well as the film sound part compared to the steel sheet of the comparative example on which the film outside the first invention range is formed. Corrosion resistance is significantly improved.Also,The steel sheet containing 4% by weight or more of Al on which the film within the first invention range is formed has a resistance to blackening compared to the steel sheet of the comparative example containing 4% by weight or more of Al on which the film outside the scope of the first invention is formed. Zn-Al plated steel sheet containing 4 to 25% by weight of Al improves blackening resistance in a stack state, and Zn-Al based steel sheet containing more than 25 to 75% by weight of Al improves blackening resistance in a wet environment. ing.
[0079]
  In forming a film within the scope of the first invention,Third inventionSteel sheets that are coated at drying temperatures within the rangeThird inventionSteel sheet of comparative example formed with a film at a drying temperature outside the range( No.26,29 )Compared with, good film quality is obtained. In addition, when a treatment liquid having a Cr reduction rate within the range of the fifth invention is used, a treatment liquid having a Cr reduction rate below the fifth invention range is used.( No.30 )Compared with, better film quality is obtained. A treatment liquid with a Cr reduction rate exceeding the range of the fifth invention.(No.33)In this case, the quality of the steel sheet was not evaluated because the treatment liquid was gelled.
[0080]
(Example 3)
  Chromium salts shown in Table 7 as zinc-plated steel sheets shown in Table 1 as treated raw plates as trivalent chromium compoundsTheIt was used and applied with a roll coater under the treatment liquid composition and drying temperature as shown in Tables 8 and 9, and dried by heating without washing with water to form a chemical conversion treatment film. The adhesion amount was controlled by the coating amount, the peripheral speed of the roll coater, the reduction amount, and the like. Here, Table 2 shows compounds (either “Zn, Al-phosphoric acid” in Tables 8 and 9) composed of either one or two of zinc and aluminum in the chemical conversion film and phosphoric acid. Quality evaluation of the obtained surface-treated steel sheet was performed as follows.
[0081]
(1) Corrosion resistance of processed parts
A notch reaching the iron ground was made with a cutter knife over a width of 0.3 mm and a length of 5 cm on the sample surface, and the following combined corrosion test was performed 200 cycles.
3wt% salt spray test (30 ℃; 0.5 hours)
↓
Wet test (30 ° C, 95% RH; 1.5 hours)
The evaluation was based on the same rusting area ratio as the rust generation area ratio in the region of 5 mm on both sides of the score line. In addition, the state (color tone) of rust is the same as that in the case of the processed portion corrosion resistance evaluation of Example 1.
[0082]
(2) Corrosion resistance of the coating healthy part
The composite corrosion test was performed for 300 cycles on the sample that was not subjected to processing such as scratching or bending, and evaluation was performed based on the same standard as above based on the rust generation area ratio of the sample surface. In addition, the state of rust is the same as the case of said process part corrosion resistance evaluation.
[0083]
(3) Blackening resistance
With respect to the Zn—Al-based plated steel sheet containing 4% by weight or more of Al, the blackening resistance was evaluated in the same manner as in Example 1.
The evaluation results are shown in Tables 8 and 9.
[0084]
[Table 7]

[0085]
[Table 8]

[0086]
[Table 9]

[0087]
  From Tables 8 and 9, the steel sheet on which the film within the first invention range is formed is, of course, the processed part, as well as the film sound part, compared with the steel sheet of the comparative example on which the film outside the first invention range is formed. Corrosion resistance is significantly improved.No.17,30 ~ 32As can be seen from the comparison of the above, when chromium carboxylate is used as the trivalent chromium compound(No.17,32)Corrosion resistance and blackening resistance are better.
[0088]
Further, the steel sheet containing 4% by weight or more of Al on which the film within the first invention range is formed is more resistant to blackening than the steel sheet of the comparative example containing 4% by weight or more of Al on which the film outside the scope of the first invention is formed. In other words, the Zn-Al plated steel sheet containing 4 to 25% by weight of Al has a blackening resistance in a stack state, and the Zn-Al based steel sheet containing more than 25 to 75% by weight of Al has a blackening resistance in a wet environment. It has been improved.
[0089]
  Moreover, when forming the film within the range of the first invention, the steel sheet manufactured under the conditions within the range of the sixth invention has good film quality. On the other hand, the steel plate of the comparative example in which the film was formed at a drying temperature outside the range of the sixth invention( No.26,29 )The film quality is inferior.
[0090]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the surface treatment steel plate which has the corrosion resistance of the outstanding process part and flaw part which cannot be acquired only by the self-repair effect by hexavalent chromium is obtained.
[0091]
  In particular,In the case where the zinc-based plated steel sheet is a Zn-Al-based plated steel sheet containing 4 to 25% by weight of aluminum, a surface-treated steel sheet that is excellent in corrosion resistance in the processed part and further in blackening resistance in a stacked state can be obtained.
[0092]
Moreover, when the zinc-based plated steel sheet is a Zn-Al-based plated steel sheet containing aluminum in an amount of more than 25 to 75% by weight, a surface-treated steel sheet that is excellent in the corrosion resistance of the processed part and further in blackening resistance in a wet environment can be obtained.

Claims (5)

(A) Chromium is 0.1 to 100 mg / m ² , (B) Calcium oxide, Calcium silicate on the surface of the Zn-Al plated steel sheet containing 4 to 25% by weight or more than 25 to 75% by weight of aluminum One or more calcium compounds selected from calcium carbonate, calcium phosphate, calcium molybdate, calcium phosphate / zinc, calcium phosphate / magnesium, calcium molybdate / zinc are 0.1 to 200 mg / m ² as calcium (C ) A surface-treated steel sheet in which a film containing a compound composed of either one or two of zinc and aluminum and phosphoric acid in a range of 0.1 to 100 mg / m ^{2 in} terms of phosphorus is formed. In producing the surface-treated steel sheet according to claim 1, a water-soluble chromium compound and an oxidation are formed on the surface of the Zn-Al-based plated steel sheet containing 4 to 25% by weight or more than 25 to 75% by weight of aluminum in the plating film. One or more calcium compounds selected from calcium, calcium silicate, calcium carbonate, calcium phosphate, calcium molybdate, calcium phosphate / zinc, calcium phosphate / magnesium, calcium molybdate / zinc, and any of zinc and aluminum Or a treatment liquid containing phosphoric acid, a compound comprising one or two kinds of phosphoric acid, and (i) hexavalent chromium ion in an amount of 0.1 to 50 g / l, and (ii) calcium 1 to 50 g / l and (iii) a coating solution containing 1 to 50 g / l of phosphoric acid is applied and heated to a maximum plate temperature of 60 to 300 ° C. without washing with water to form a film. A method for producing a surface-treated steel sheet, comprising: The method for producing a surface-treated steel sheet according to claim 2 , wherein a weight ratio of trivalent chromium ions / (trivalent chromium ions + hexavalent chromium ions) in the treatment liquid is 0.2 to 0.8. In producing the surface-treated steel sheet according to claim 1, the chromium compound is a trivalent chromium compound on the surface of the Zn-Al-based plated steel sheet containing 4 to 25% by weight or more than 25 to 75% by weight of aluminum in the plating film. A water-soluble chromium compound consisting of calcium oxide, calcium silicate, calcium carbonate, calcium phosphate, calcium molybdate, calcium phosphate / zinc, calcium phosphate / magnesium, calcium molybdate / zinc, or one or more calcium 0.1 and compounds, zinc, and compounds consisting of either one or two phosphate aluminum, a treatment liquid containing phosphoric acid, in the process solution, the (i) 3 chromium ions 50 g / l, (ii) 1-50 g / l of calcium, and (iii) a treatment solution containing 1-50 g / l of phosphoric acid, and a maximum plate temperature of 60-300 ° C. without washing with water A method for producing a surface-treated steel sheet, wherein a film is formed by heating in a range of. The method for producing a surface-treated steel sheet according to claim 4, wherein the water-soluble chromium compound is chromium carboxylate.