[go: up one dir, main page]
More Web Proxy on the site http://driver.im/

JP2636589B2 - Zinc-nickel-chromium alloy electroplated steel sheet with excellent corrosion resistance, plating adhesion and chemical conversion treatment - Google Patents

Zinc-nickel-chromium alloy electroplated steel sheet with excellent corrosion resistance, plating adhesion and chemical conversion treatment

Info

Publication number
JP2636589B2
JP2636589B2 JP3234162A JP23416291A JP2636589B2 JP 2636589 B2 JP2636589 B2 JP 2636589B2 JP 3234162 A JP3234162 A JP 3234162A JP 23416291 A JP23416291 A JP 23416291A JP 2636589 B2 JP2636589 B2 JP 2636589B2
Authority
JP
Japan
Prior art keywords
nickel
zinc
film
steel sheet
chromium alloy
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 - Lifetime
Application number
JP3234162A
Other languages
Japanese (ja)
Other versions
JPH05112891A (en
Inventor
聡 安藤
雅樹 阿部
勝 鷺山
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
JFE Engineering Corp
Original Assignee
Nippon Kokan Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Nippon Kokan Ltd filed Critical Nippon Kokan Ltd
Priority to JP3234162A priority Critical patent/JP2636589B2/en
Publication of JPH05112891A publication Critical patent/JPH05112891A/en
Application granted granted Critical
Publication of JP2636589B2 publication Critical patent/JP2636589B2/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Landscapes

  • Electroplating Methods And Accessories (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】この発明は、自動車用鋼板として
好適な、裸耐食性、塗装後耐食性、めっき密着性および
化成処理性に優れた亜鉛−ニッケル−クロム合金電気め
っき鋼板に関するものである。
BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a zinc-nickel-chromium alloy electroplated steel sheet excellent in bare corrosion resistance, corrosion resistance after coating, plating adhesion and chemical conversion treatment, which is suitable as a steel sheet for automobiles.

【0002】[0002]

【従来の技術】その少なくとも1つの表面上に、亜鉛−
ニッケル合金電気めっき被膜が形成された亜鉛−ニッケ
ル合金電気めっき鋼板は、優れた耐食性を有しているた
めに、自動車用鋼板として広く使用されている。近時、
自動車業界においては、省エネルギー対策のために、自
動車車体の軽量化が積極的に進められており、そのため
に、自動車メーカーから、板厚が一段と薄く且つ少ない
めっき量で優れた耐食性を有する亜鉛−ニッケル系合金
電気めっき鋼板の開発が要求されている。
BACKGROUND OF THE INVENTION At least one surface has zinc-
BACKGROUND ART A zinc-nickel alloy electroplated steel sheet having a nickel alloy electroplated film formed thereon is widely used as a steel sheet for automobiles because of its excellent corrosion resistance. Recently,
In the automobile industry, the weight of automobile bodies has been actively reduced in order to save energy. For this reason, zinc-nickel with excellent corrosion resistance with a much thinner plate thickness and a smaller plating amount has been requested by automobile manufacturers. There is a demand for the development of base alloy electroplated steel sheets.

【0003】耐食性がより優れた亜鉛−ニッケル系合金
電気めっき鋼板として、例えば、特開昭55-50484号、特
開昭58-6796 号および特公昭59-38313号等(以下、先行
技術1という)には、その少なくとも1つの表面上に、
亜鉛−ニッケル−クロム合金電気めっき被膜が形成され
た亜鉛−ニッケル−クロム合金電気めっき鋼板が開示さ
れている。先行技術1の亜鉛−ニッケル−クロム合金電
気めっき鋼板によれば、従来の亜鉛−ニッケル合金電気
めっき鋼板に比べて耐食性の向上は認められるが、めっ
き被膜中のクロム含有量は、0.005 〜1.0 wt.%程度であ
って極めて微量である。従って、主な耐食性向上効果
は、依然としてめっき被膜中のニッケル含有量に依存し
ており、例えば、先行技術1中の特公昭59-38313号にお
ける、めっき被膜中のニッケル含有量は、11〜20wt.%で
ある。
As a zinc-nickel alloy electroplated steel sheet having more excellent corrosion resistance, for example, JP-A-55-50484, JP-A-58-6796 and JP-B-59-38313 (hereinafter referred to as prior art 1). ) Has on at least one surface thereof
There is disclosed a zinc-nickel-chromium alloy electroplated steel sheet having a zinc-nickel-chromium alloy electroplated film formed thereon. According to the zinc-nickel-chromium alloy electroplated steel sheet of Prior Art 1, the corrosion resistance is improved as compared with the conventional zinc-nickel alloy electroplated steel sheet, but the chromium content in the plating film is 0.005 to 1.0 wt. It is about.% And extremely small. Therefore, the main effect of improving corrosion resistance still depends on the nickel content in the plating film. For example, in Japanese Patent Publication No. 59-38313 in Prior Art 1, the nickel content in the plating film is 11 to 20 wt. .%.

【0004】[0004]

【発明が解決しようとする課題】しかしながら、先行技
術1のように、めっき被膜中のニッケル含有量が多い
と、めっき被膜の表面性状および構造が不均一になり、
且つ、めっき被膜の密着性が悪く、従って、めっき被膜
の上に形成された塗膜の密着性も不良になる。従って、
このような亜鉛−ニッケル−クロム合金電気めっき鋼板
は、自動車用鋼板として不適当である。
However, as in the prior art 1, when the nickel content in the plating film is large, the surface properties and structure of the plating film become non-uniform,
In addition, the adhesion of the plating film is poor, and therefore, the adhesion of the coating film formed on the plating film is also poor. Therefore,
Such a zinc-nickel-chromium alloy electroplated steel sheet is not suitable as a steel sheet for automobiles.

【0005】一方、特開平1-55397号(以下、先行技術
2という)には、その少なくとも1つの表面上に、5〜
40wt.%のクロムと、残部が亜鉛とからなる亜鉛−クロム
合金電気めっき被膜が形成された亜鉛−クロム合金電気
めっき鋼板が開示されている。先行技術2によれば、表
面性状が均一な亜鉛−クロム合金電気めっき被膜を有す
る電気めっき鋼板が得られる。
On the other hand, JP-A-1-55397 (hereinafter referred to as Prior Art 2) discloses that at least one surface has
There is disclosed a zinc-chromium alloy electroplated steel sheet on which a zinc-chromium alloy electroplating coating composed of 40 wt.% Chromium and the balance of zinc is formed. According to Prior Art 2, an electroplated steel sheet having a zinc-chromium alloy electroplated film having a uniform surface property can be obtained.

【0006】しかしながら、先行技術2の亜鉛−クロム
合金電気めっき鋼板には、そのめっき被膜の上に、塗装
前処理として重要な化成処理による燐酸塩被膜を形成す
る際に、燐酸塩被膜の結晶が粗大化し、そして、燐酸塩
被膜の形成が不完全になる問題がある。このように、先
行技術2の亜鉛−クロム合金電気めっき鋼板には、塗膜
の密着性を高め塗装後の耐食性を向上させるために必要
な化成処理を施す際における化成処理性に関して、致命
的な欠陥がある。
However, in the zinc-chromium alloy electroplated steel sheet of prior art 2, when forming a phosphate film by chemical conversion treatment, which is important as a pre-coating treatment, on the plated film, crystals of the phosphate film are formed. There is a problem of coarsening and incomplete formation of a phosphate film. As described above, the zinc-chromium alloy electroplated steel sheet of the prior art 2 has a fatal effect on the chemical conversion treatment at the time of performing the chemical conversion treatment necessary for improving the adhesion of the coating film and improving the corrosion resistance after coating. There are defects.

【0007】従って、この発明の目的は、上述した問題
を解決し、裸耐食性、塗装後耐食性めっき密着性および
化成処理性に優れた亜鉛−ニッケル−クロム合金電気め
っき鋼板を提供することにある。
Accordingly, it is an object of the present invention to provide a zinc-nickel-chromium alloy electroplated steel sheet which solves the above-mentioned problems and is excellent in bare corrosion resistance, corrosion resistance after coating, plating adhesion and chemical conversion treatment.

【0008】[0008]

【課題を解決するための手段】本発明者等は、上述した
問題を解決すべく鋭意研究を重ねた。その結果、次の知
見を得た。亜鉛−ニッケル合金電気めっき鋼板におい
て、亜鉛−ニッケル合金電気めっき被膜中のニッケル含
有量が約11wt.%以上であれば、腐食環境中に存在するCl
- と、めっき被膜中のZnとによって形成される腐食生成
物が、Zn- Ni合金相であるγ相の結晶中に堆積する結
果、亜鉛−ニッケル合金電気めっき被膜に優れた耐食性
を付与することが知られている。
Means for Solving the Problems The present inventors have made intensive studies to solve the above-mentioned problems. As a result, the following findings were obtained. In a zinc-nickel alloy electroplated steel sheet, if the nickel content in the zinc-nickel alloy electroplated film is about 11 wt.
- and, the corrosion products formed by the Zn in the plating film, Zn- Ni alloy phase and a γ phase results to be deposited in the crystal, zinc - to impart good corrosion resistance to the nickel alloy electroplating film It has been known.

【0009】そこで、このような約11wt.%以上のニッケ
ルに加えて、約1wt.%のクロムを含有させた亜鉛−ニッ
ケル−クロム合金電気めっき被膜を鋼板の少なくとも1
つの表面上に形成すると、耐食性は更に向上し、例えば
10000 時間程度の塩水噴霧試験を施したときでも赤錆は
発生しない。このようにクロムの添加によって耐食性が
向上する理由は、めっき被膜中のクロムによって、めっ
き被膜の表層中にクロムを含む難溶性の極めて安定な保
護被膜が形成されるためであると考えられる。
Therefore, a zinc-nickel-chromium alloy electroplated film containing about 1 wt.% Chromium in addition to about 11 wt.
When formed on one surface, corrosion resistance is further improved, for example,
Red rust does not occur even after a salt spray test of about 10,000 hours. It is considered that the reason why the corrosion resistance is improved by the addition of chromium is that chromium in the plating film forms a hardly soluble and very stable protective film containing chromium in the surface layer of the plating film.

【0010】上述した約11wt.%以上の量のニッケルを含
有する亜鉛−ニッケル−クロム合金電気めっき被膜を有
するめっき鋼板において、めっき被膜中のクロムの含有
量を多くすると、耐食性は一段と向上する。しかしなが
ら、鋼板の少なくとも1つの表面上に、通常の電解条件
によって、クロム含有量が多い亜鉛−ニッケル−クロム
合金電気めっき被膜を形成すると、いわゆるめっき焼け
が生じて適正な表面性状を有するめっき被膜が得られ
ず、めっき被膜の密着性も劣化する。
In the above-mentioned plated steel sheet having a zinc-nickel-chromium alloy electroplated film containing nickel in an amount of about 11 wt.% Or more, when the chromium content in the plated film is increased, the corrosion resistance is further improved. However, when a zinc-nickel-chromium alloy electroplated film having a high chromium content is formed on at least one surface of a steel sheet by ordinary electrolysis conditions, a so-called plating burn occurs and a plated film having an appropriate surface property is formed. It cannot be obtained, and the adhesion of the plating film also deteriorates.

【0011】 一方、ニッケルを含まない亜鉛−クロム
合金電気めっき被膜を有する亜鉛−クロム合金電気めっ
き鋼板において、めっき被膜中のクロム含有量が5w
t.%を超えると、めっき鋼板の塗装前処理として重要
な化成処理において、燐酸塩被膜が粗大化し、燐酸塩被
膜が不健全になる。そこで、このようなクロムに加え
て、wt.%以上のニッケルを含有させた亜鉛−ニッ
ケル−クロム合金電気めっき被膜を鋼板の少なくとも1
つの表面上に形成すると、化成処理によって形成された
燐酸塩被膜は微細化し、健全な燐酸塩被膜が形成される
結果、その上に形成された塗膜の密着性も良好となる。
On the other hand, in a zinc-chromium alloy electroplated steel sheet having a zinc-chromium alloy electroplating film containing no nickel, the chromium content in the plating film is 5 watts.
t. %, The phosphate coating becomes coarse and the phosphate coating becomes unhealthy in a chemical conversion treatment, which is important as a pretreatment for coating a plated steel sheet. Therefore, in addition to such chromium, 1 wt. % Of a zinc-nickel-chromium alloy electroplated coating containing at least
When formed on one surface, the phosphate film formed by the chemical conversion treatment becomes finer, and a sound phosphate film is formed. As a result, the adhesion of the film formed thereon is improved.

【0012】 上述した観点から、その少なくとも1つ
の表面上に、亜鉛−ニッケル−クロム合金電気めっき被
膜が形成されている亜鉛−ニッケル−クロム合金電気め
っき鋼板において、めっき被膜中のニッケル含有量を
からwt.%の範囲内に限定し、そして、クロムの含
有量を2〜30wt.%の範囲内に限定したところ、め
っき密着性、化成処理性、裸耐食性および塗装後耐食性
が共に優れた亜鉛−ニッケル−クロム合金電気めっき被
膜が得られることがわかった。
In view of the above, in a zinc-nickel-chromium alloy electroplated steel sheet having a zinc-nickel-chromium alloy electroplated film formed on at least one surface thereof, the nickel content in the plated film is reduced to 1
From 5 wt. % And the chromium content is 2 to 30 wt. %, It was found that a zinc-nickel-chromium alloy electroplated coating having excellent plating adhesion, chemical conversion properties, bare corrosion resistance and post-coating corrosion resistance was obtained.

【0013】 この発明は、上述した知見に基づいてな
されたものであって、この発明は、その少なくとも1つ
の表面上に、亜鉛−ニッケル−クロム合金電気めっき被
膜が形成されている亜鉛−ニッケル−クロム合金電気め
っき鋼板において、 前記亜鉛−ニッケル−クロム合金電気めっき被膜は、 ニッケル:wt.%、 クロム :2〜30wt.%、 残り :亜鉛および不可避不純物 からなっていることに特徴を有するものである。
The present invention has been made based on the above-described findings, and the present invention provides a zinc-nickel alloy having a zinc-nickel-chromium alloy electroplated film formed on at least one surface thereof. In the chromium alloy electroplated steel sheet, the zinc-nickel-chromium alloy electroplated coating is formed of nickel: 1 to 5 wt. %, Chromium: 2 to 30 wt. %, Balance: It is characterized by being composed of zinc and unavoidable impurities.

【0014】[0014]

【作用】 次に、この発明において、めっき被膜の成分
組成を上述したように限定した理由について、説明す
る。 (1)ニッケル 亜鉛−ニッケル−クロム合金電気めっき被膜中のニッケ
ルの含有量は、からwt.%の範囲内に限定すべき
である。めっき被膜中のニッケル含有量がwt.%未
満では、化成処理性の向上効果が得られない。一方、ニ
ッケル含有量がwt.%を超えると、めっき被膜の表
面性状が悪化し、めっき被膜の密着性が劣化する。
Next, the reason why the composition of the plating film is limited as described above in the present invention will be described. (1) Nickel The content of nickel in the zinc-nickel-chromium alloy electroplated coating is 1 to 5 wt. It should be limited to the range of%. The nickel content in the plating film is 1 wt. %, The effect of improving the chemical conversion property cannot be obtained. On the other hand, when the nickel content is 5 wt. %, The surface properties of the plating film deteriorate, and the adhesion of the plating film deteriorates.

【0015】(2) クロム 亜鉛−ニッケル−クロム合金電気めっき被膜中のクロム
の含有量は、2から30wt.%の範囲内内に限定すべきであ
る。めっき被膜中のクロム含有量が2wt.%未満では、化
成処理性の向上効果がない。一方、クロム含有量が30w
t.%を超えると、化成処理によってめっき被膜の上に形
成される燐酸塩被膜が粗大化し、燐酸塩被膜が不健全に
なる。
(2) Chromium The chromium content in the zinc-nickel-chromium alloy electroplated coating should be limited to the range of 2 to 30 wt.%. If the chromium content in the plating film is less than 2 wt.%, There is no effect of improving the chemical conversion treatment. On the other hand, the chromium content is 30w
If the content exceeds t.%, the phosphate film formed on the plating film by the chemical conversion treatment becomes coarse, and the phosphate film becomes unhealthy.

【0016】図2は、従来の、11wt.%のクロムを含有す
る亜鉛−クロム合金電気めっき被膜が形成された亜鉛−
クロム合金電気めっき鋼板のめっき被膜の上に、化成処
理によって燐酸塩被膜を形成したときの、燐酸塩被膜の
電子顕微鏡写真(倍率750 倍)である。図2から、後述
する図1の本発明めっき鋼板に比べて、燐酸塩被膜の結
晶が粗大化していることがわかる。
FIG. 2 shows a conventional zinc-chromium alloy electroplating film containing 11 wt.
It is an electron micrograph (750 times magnification) of a phosphate film when a phosphate film is formed by a chemical conversion treatment on a plating film of a chromium alloy electroplated steel sheet. From FIG. 2, it can be seen that the crystals of the phosphate coating are coarser than those of the plated steel sheet of the present invention shown in FIG. 1 described below.

【0017】 図1は、鋼板の表面上に、wt.%の
ニッケルおよび11wt.%のクロムを含有する亜鉛−
ニッケル−クロム合金電気めっき被膜が形成された、本
発明の亜鉛−ニッケル−クロム合金電気めっき鋼板のめ
っき被膜の上に、上述した図2の従来のめっき鋼板に対
すると同じ条件で、化成処理により燐酸塩被膜を形成し
たときの燐酸塩被膜の電子顕微鏡写真(倍率750倍)
である。図1から明らかなように、燐酸塩被膜の結晶
は、上述した図2のニッケルを含有しない亜鉛−クロム
合金電気めっき被膜が形成されためっき鋼板のように粗
大化することがなく、通常の亜鉛系めっき鋼板並みに微
細化していることがわかる。
FIG. 1 shows that 1 wt. % Nickel and 11 wt. % Chromium containing zinc-
On the zinc-nickel-chromium alloy electroplated steel sheet of the present invention, on which the nickel-chromium alloy electroplated film was formed, phosphoric acid was formed by a chemical conversion treatment under the same conditions as for the conventional plated steel sheet of FIG. Electron micrograph of the phosphate film when the salt film was formed (750 times magnification)
It is. As is clear from FIG. 1, the crystals of the phosphate film do not become coarse as in the case of the above-described plated steel sheet in which the zinc-chromium alloy electroplated film not containing nickel shown in FIG. It can be seen that the size has been reduced to the same level as that of the system-coated steel sheet.

【0018】めっき被膜の表面上への燐酸塩被膜の形成
は、公知の燐酸塩処理液を使用し、公知のスプレータイ
プまたは浸漬タイプによって化成処理を施すことにより
行われる。
The formation of the phosphate film on the surface of the plating film is carried out by using a known phosphating solution and performing a chemical conversion treatment by a known spray type or immersion type.

【0019】めっき被膜の厚さ即ち付着量の好ましい範
囲は、鋼板の片面当たり10〜100 g/m2である。めっき付
着量が鋼板の片面当たり10g/m2未満では、耐食性が劣化
する。一方、めっき被膜の付着量が鋼板の片面当たり10
0 g/m2を超えると、溶接性および加工性が劣化する。好
ましいめっき付着量は、鋼板の片面当たり20から50g/m2
の範囲内である。
The preferred range of the thickness of the plating film, that is, the adhesion amount is 10 to 100 g / m 2 per one side of the steel sheet. If the coating weight is less than 10 g / m 2 per one side of the steel sheet, the corrosion resistance deteriorates. On the other hand, the coating weight of the plating film was 10
If it exceeds 0 g / m 2 , weldability and workability deteriorate. The preferred coating weight is 20 to 50 g / m 2 per side of the steel sheet.
Is within the range.

【0020】めっき被膜中に、亜鉛、ニッケルおよびク
ロムのほか、微量のCo, Fe, Mn, Ti,F,B,N,C,
P等が含まれていてもよい。
[0020] In addition to zinc, nickel and chromium, trace amounts of Co, Fe, Mn, Ti, F, B, N, C,
P and the like may be included.

【0021】次に、この発明の亜鉛−ニッケル−クロム
合金電気めっき鋼板の製造方法について説明する。めっ
き液としては、所定量のZn2+,Ni2+およびCr3+を含有す
る酸性めっき液を使用する。なお、めっき液の電導度を
高めるために、めっき液中に、Na+ ,K+ ,NH4 + 等のアル
カリ金属を添加してもよく、また、クロム析出促進剤と
して作用するポリマー類を添加してもよい。陰イオンと
しては、SO4 2- ,Cl - ,BF4 - のいづれも使用することが
できる。
Next, a method for producing the zinc-nickel-chromium alloy electroplated steel sheet of the present invention will be described. As the plating solution, an acidic plating solution containing predetermined amounts of Zn 2+ , Ni 2+ and Cr 3+ is used. In order to increase the conductivity of the plating solution, an alkali metal such as Na + , K + , NH 4 + may be added to the plating solution, and polymers acting as a chromium precipitation promoter may be added. May be. As the anion, any of SO 4 2− , Cl , and BF 4 can be used.

【0022】めっき液の好ましいpH値は、0.5 〜3.0 で
ある。めっき液のpH値が0.5 未満では、電解効率が低下
する。一方、めっき液のpH値が3.0 を超えると、めっき
液中に沈澱物が発生しやすくなる。めっき液の好ましい
温度は、30〜70℃である。めっき液の温度が30℃未満で
は、めっき液中に未溶解物が生成しやすくなり、且つ、
電析効率が低下する。一方、めっき液の温度が70℃を超
えると、めっき槽等の設備上の点で問題が生ずる。めっ
き電流密度は、これを変化させることによって、所望の
成分組成のめっき被膜を形成することができるので、特
に限定するものではないが、電流密度を高めるに従っ
て、クロムの含有量が多くなり、そして、ニッケルの含
有量も、クロムほどではないが、やはり増加する傾向が
ある。
The preferred pH value of the plating solution is 0.5 to 3.0. If the pH value of the plating solution is less than 0.5, the electrolysis efficiency decreases. On the other hand, when the pH value of the plating solution exceeds 3.0, a precipitate is easily generated in the plating solution. The preferred temperature of the plating solution is 30 to 70 ° C. When the temperature of the plating solution is lower than 30 ° C., undissolved substances are easily generated in the plating solution, and
The electrodeposition efficiency decreases. On the other hand, when the temperature of the plating solution exceeds 70 ° C., problems occur in terms of facilities such as a plating tank. The plating current density is not particularly limited because a plating film having a desired composition can be formed by changing the plating current density.However, as the current density is increased, the chromium content increases, and , Nickel content is not as high as chromium, but also tends to increase.

【0023】めっき被膜の上に、化成処理によって燐酸
塩被膜を形成する代りに、めっき被膜の上に、クロメー
ト処理によってクロメート被膜を形成してもよい。本発
明のめっき鋼板のめっき被膜においては、Cr3+、Cr6+
らなる酸性処理液との反応性が比較的高いので、クロメ
ート被膜の形成は、従来の反応型、塗布型、電解型の何
れのクロメート処理方法によっても行うことができる。
クロメート被膜の好ましい量は、クロムとして5〜100m
g/m2 である。なお、クロメート被膜の上に、0.5 〜2.5
μm の量の有機樹脂被膜を形成してもよい。このよう
な有機樹脂被膜は、従来から使用されているどのような
有機樹脂でも使用することができる。特に、有機樹脂中
にSiO2などの防錆添加剤が含有されているものが効果的
である。
Instead of forming a phosphate film on the plating film by a chemical conversion treatment, a chromate film may be formed on the plating film by a chromate treatment. In the plating film of the plated steel sheet of the present invention, since the reactivity with the acidic treatment solution composed of Cr 3+ and Cr 6+ is relatively high, the formation of the chromate film is performed by a conventional reaction type, coating type, or electrolytic type. It can be performed by any of the chromate treatment methods.
The preferred amount of the chromate film is 5 to 100 m as chromium.
g / m 2 . In addition, 0.5 to 2.5
An organic resin film in an amount of μm may be formed. As such an organic resin film, any conventionally used organic resin can be used. In particular, an organic resin containing a rust preventive additive such as SiO 2 is effective.

【0024】[0024]

【実施例】次に、この発明を、実施例により、比較例と
対比しながら更に詳述する。めっき液として、下記A,
B,Cの3種類のめっき液を使用した。 めっき液A ZnSO47H20 : 100 〜500 g/l 、 NiSO46H20 : 100 〜500 g/l 、 Cr2(SO4)3 : 100 〜500 g/l、 Na2SO4 : 60 g/l 、 pH値 : 1.2
Next, the present invention will be described in more detail with reference to Examples and Comparative Examples. The following A,
Three types of plating solutions B and C were used. Plating solution A ZnSO 4 7H 2 0: 100 ~500 g / l, NiSO 4 6H 2 0: 100 ~500 g / l, Cr 2 (SO 4) 3: 100 ~500 g / l, Na 2 SO 4: 60 g / l, pH value: 1.2

【0025】 めっき液B Zn(BF4)2 : 10 〜100 g/l 、 Ni(BF4)2 : 10 〜100 g/l 、 H3BO3 : 60 g/l 、 Cr(BF4)3 : 10 〜100 g/l 、 pH値 : 2.0Plating solution B Zn (BF 4 ) 2 : 10 to 100 g / l, Ni (BF 4 ) 2 : 10 to 100 g / l, H 3 BO 3 : 60 g / l, Cr (BF 4 ) 3 : 10 to 100 g / l, pH value: 2.0

【0026】 めっき液C ZnCl2 : 10 〜300 g/l 、 NiCl26H2O : 10 〜300 g/l 、 NaCl : 20 g/l 、 CrCl3 : 10 〜200 g/l 、 pH値 : 2.5Plating solution C: ZnCl 2 : 10 to 300 g / l, NiCl 2 6H 2 O: 10 to 300 g / l, NaCl: 20 g / l, CrCl 3 : 10 to 200 g / l, pH value: 2.5

【0027】 上述したA,B,Cの何れかの成分組成
およびpH値を有する、50〜60℃の温度のめっき液
を使用し、30〜150A/dmの範囲内で電流密度
を変化させて、板厚0.7mmの鋼板の一方の表面上
に、20g/mの量の亜鉛−ニッケル−クロム合金電
気めっき被膜を形成し、表1に示す、本発明の範囲内の
亜鉛−ニッケル−クロム合金電気めっき被膜を有する供
試体(以下、本発明供試体という)No.1〜を調製
した。比較のために、表2に示す、本発明の範囲外の亜
鉛−ニッケル−クロム合金電気めっき被膜を有する供試
体(以下、比較用供試体という)No.1〜8を調製し
た。
Using a plating solution having a component composition and a pH value of any one of the above-mentioned A, B and C and having a temperature of 50 to 60 ° C., changing the current density within the range of 30 to 150 A / dm 2. Then, a zinc-nickel-chromium alloy electroplating coating in an amount of 20 g / m 2 was formed on one surface of a steel plate having a thickness of 0.7 mm, and zinc-nickel within the scope of the present invention shown in Table 1 was obtained. Specimen having a chromium alloy electroplated coating (hereinafter referred to as the specimen of the present invention) 1 to 8 were prepared. For comparison, a test piece having a zinc-nickel-chromium alloy electroplating coating out of the range of the present invention (hereinafter referred to as a comparative test piece) No. 2 shown in Table 2 was used. 1 to 8 were prepared.

【0028】[0028]

【表 1】 [Table 1]

【0029】 [0029]

【0030】このようにして調製した各供試体に対し、
以下に述べる試験を行った。 (1) めっき被膜の密着性試験 JIS H 8504に準拠した試験であって、各供試体を、所定
角度に曲げ、次いで、曲げられた供試体の合金めっき被
膜に接着テープを貼り次いでこれを剥がしたときの、め
っき被膜の剥離量を目視によって調べ、その剥離量に基
づいて、下記により評価した。 ○:良好、 △:やや不良、 ×:不良
For each specimen thus prepared,
The tests described below were performed. (1) Adhesion test of plating film This test is based on JIS H 8504, and each specimen is bent at a predetermined angle, and then an adhesive tape is applied to the alloy plating film of the bent specimen and then peeled off. The peeling amount of the plating film was visually inspected and evaluated based on the peeling amount as described below. :: good, △: slightly bad, ×: bad

【0031】(2) 化成処理性試験 各供試体に対し、燐酸塩処理液によって浸漬タイプの燐
酸塩処理を施して、供試体の表面上に燐酸塩被膜を形成
した。得られた燐酸塩被膜の結晶状態を電子顕微鏡によ
って観察し、下記により評価した。 ○:緻密な結晶、 ×:粗大または不健全な結晶
(2) Chemical conversion test Each specimen was subjected to a immersion type phosphate treatment with a phosphating solution to form a phosphate film on the surface of the specimen. The crystal state of the obtained phosphate film was observed by an electron microscope and evaluated as follows. :: dense crystal, ×: coarse or unhealthy crystal

【0032】(3) 裸耐食性試験 JIS-Z-2371 に準拠した試験であって、各供試体に対し
て塩水噴霧試験を施し、赤錆が発生するまでの時間を調
べ、これによって評価した。
(3) Bare corrosion resistance test A test in accordance with JIS-Z-2371, in which each specimen was subjected to a salt spray test, and the time until red rust was generated was examined and evaluated.

【0033】(4) 塗装後耐食性試験 各供試体に対し、燐酸塩処理液によって浸漬タイプの燐
酸塩処理を施して、供試体の表面上に燐酸塩被膜を形成
し、次いで、カチオンタイプの電着塗装処理を施して、
燐酸塩被膜の上に、厚さ20μm の下塗り塗膜を形成し
た。次いで、下塗り塗膜の表面上に、厚さ30μm の中塗
り塗膜、および、厚さ30μm の上塗り塗膜を形成した。
このようにして得られた3層の塗膜を有する供試体の塗
膜にクロスカットを入れ、クロスカットの入った供試体
に対し、塩水噴霧、乾燥、湿潤および乾燥を1日1サイ
クルとする腐食促進試験を120 サイクル行った後、クロ
スカット部に生じたふくれ幅を調べ、下記によって評価
した。 ◎:ふくれ幅 0〜1mm未満、 ○:ふくれ幅 1mm以上〜3mm未満、 △:ふくれ幅 3mm以上〜5mm未満、 ×:ふくれ幅 5mm以上
(4) Corrosion resistance test after painting Each specimen was subjected to a immersion type phosphate treatment with a phosphating solution to form a phosphate film on the surface of the specimen, and then a cationic type electrode was formed. Applying a coating process,
An undercoating film having a thickness of 20 μm was formed on the phosphate film. Then, a 30 μm thick intermediate coat and a 30 μm thick top coat were formed on the surface of the undercoat.
A cross-cut is made on the coating film of the specimen having the three-layer coating film obtained in this manner, and the specimen with the cross-cut is subjected to one cycle of salt spray, drying, wetting, and drying per day. After 120 cycles of the corrosion promotion test, the blister width generated at the cross cut portion was examined and evaluated according to the following. ◎: blister width 0 to less than 1 mm, ○: blister width 1 mm to less than 3 mm, Δ: blister width 3 mm to less than 5 mm, ×: blister width 5 mm or more

【0034】(5) 外観 供試体の表面外観を目視によって評価した。(5) Appearance The surface appearance of the specimen was evaluated by visual observation.

【0035】上述した各供試体の試験結果を、表3に示
す。
Table 3 shows the test results of the above-mentioned specimens.

【0036】[0036]

【表 3】 [Table 3]

【0037】表1〜3から明らかなように、めっき被膜
中のニッケル量が本発明の範囲を超えて多く、且つ、ク
ロム含有量が本発明の範囲を外れて少ない比較用供試体
No.1は、めっき被膜の密着性および塗装後耐食性がや
や不良であり且つ表面外観も悪かった。めっき被膜中の
ニッケル量が本発明の範囲を超えて非常に多い比較用供
試体No. 2〜5は、めっき被膜の密着性が悪く、塗装後
耐食性もやや不良であり且つ表面外観も悪かった。
As is clear from Tables 1 to 3, comparative nickel specimens having a large nickel content in the plating film beyond the scope of the present invention and a small chromium content outside the scope of the present invention.
In No. 1, the adhesion of the plating film and the corrosion resistance after painting were slightly poor and the surface appearance was poor. Comparative Sample Nos. 2 to 5 in which the amount of nickel in the plating film was very large beyond the range of the present invention, the adhesion of the plating film was poor, the corrosion resistance after painting was slightly poor, and the surface appearance was poor. .

【0038】ニッケル含有量が本発明の範囲を超えて非
常に多く、且つ、クロム含有量が本発明の範囲を外れて
少ない比較用供試体No. 6は、めっき被膜の密着性およ
び塗装後耐食性がやや不良であり且つ表面外観も悪かっ
た。クロム含有量が本発明の範囲を超えて多い比較用供
試体No. 7は、化成処理性および塗装後耐食性が悪く、
めっき被膜の密着性もやや不良であった。ニッケル含有
量が本発明の範囲を外れて少ない比較用供試体No. 8
は、化成処理性および塗装後耐食性が悪かった。
The comparative sample No. 6 having a very large nickel content exceeding the range of the present invention and a small chromium content outside the range of the present invention has excellent adhesion of the plating film and corrosion resistance after coating. However, it was somewhat poor and the surface appearance was poor. Comparative sample No. 7 having a chromium content exceeding the range of the present invention has a poor chemical conversion property and corrosion resistance after painting,
The adhesion of the plating film was also slightly poor. Comparative specimen No. 8 having a low nickel content outside the scope of the present invention
Was poor in chemical conversion treatment and corrosion resistance after painting.

【0039】 これに対し、本発明供試体No.1−
は、めっき被膜の密着性、化成処理性、裸耐食性、塗装
後耐食性および表面外観のすべてにおいて優れていた。
On the other hand, the specimen No. 1-8
Was excellent in all of the adhesion of the plating film, the chemical conversion treatment, the bare corrosion resistance, the corrosion resistance after painting, and the surface appearance.

【0040】[0040]

【発明の効果】以上述べたように、この発明によれば、
めっき密着性、化成処理性、裸耐食性、塗装後耐食性お
よび表面外観に優れた亜鉛−ニッケル−クロム合金電気
めっき鋼板を得ることができる、工業上有用な効果がも
たらされる。
As described above, according to the present invention,
Industrially useful effects can be obtained, whereby a zinc-nickel-chromium alloy electroplated steel sheet excellent in plating adhesion, chemical conversion treatment, bare corrosion resistance, corrosion resistance after painting, and surface appearance can be obtained.

【図面の簡単な説明】[Brief description of the drawings]

【図1】本発明の亜鉛−ニッケル−クロム合金電気めっ
き鋼板のめっき被膜の上に形成された燐酸塩被膜の結晶
構造を示す電気顕微鏡写真(倍率750 倍) である。
FIG. 1 is an electron micrograph (750-fold magnification) showing a crystal structure of a phosphate film formed on a plated film of a zinc-nickel-chromium alloy electroplated steel sheet of the present invention.

【図2】従来の亜鉛−クロム合金電気めっき鋼板のめっ
き被膜の上に形成された燐酸塩被膜の結晶構造を示す電
気顕微鏡写真(倍率750 倍) である。
FIG. 2 is an electric micrograph (magnification: 750 times) showing a crystal structure of a phosphate film formed on a plating film of a conventional zinc-chromium alloy electroplated steel sheet.

Claims (1)

(57)【特許請求の範囲】(57) [Claims] 【請求項1】 その少なくとも1つの表面上に、亜鉛−
ニッケル−クロム合金電気めっき被膜が形成されている
亜鉛−ニッケル−クロム合金電気めっき鋼板において、 前記亜鉛−ニッケル−クロム合金電気めっき被膜は、 ニッケル:wt.%、 クロム :2〜30wt.%、 残り :亜鉛および不可避不純物 からなっていることを特徴とする、耐食性、めっき密着
性および化成処理性に優れた亜鉛−ニッケル−クロム合
金電気めっき鋼板。
1. The method according to claim 1, wherein the at least one surface comprises zinc-
In a zinc-nickel-chromium alloy electroplated steel sheet having a nickel-chromium alloy electroplated film formed thereon, the zinc-nickel-chromium alloy electroplated film has a nickel content of 1 to 5 wt. %, Chromium: 2 to 30 wt. %, Balance: Zinc-nickel-chromium alloy electroplated steel sheet excellent in corrosion resistance, plating adhesion and chemical conversion treatment, comprising zinc and unavoidable impurities.
JP3234162A 1991-08-21 1991-08-21 Zinc-nickel-chromium alloy electroplated steel sheet with excellent corrosion resistance, plating adhesion and chemical conversion treatment Expired - Lifetime JP2636589B2 (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
JP3234162A JP2636589B2 (en) 1991-08-21 1991-08-21 Zinc-nickel-chromium alloy electroplated steel sheet with excellent corrosion resistance, plating adhesion and chemical conversion treatment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP3234162A JP2636589B2 (en) 1991-08-21 1991-08-21 Zinc-nickel-chromium alloy electroplated steel sheet with excellent corrosion resistance, plating adhesion and chemical conversion treatment

Publications (2)

Publication Number Publication Date
JPH05112891A JPH05112891A (en) 1993-05-07
JP2636589B2 true JP2636589B2 (en) 1997-07-30

Family

ID=16966635

Family Applications (1)

Application Number Title Priority Date Filing Date
JP3234162A Expired - Lifetime JP2636589B2 (en) 1991-08-21 1991-08-21 Zinc-nickel-chromium alloy electroplated steel sheet with excellent corrosion resistance, plating adhesion and chemical conversion treatment

Country Status (1)

Country Link
JP (1) JP2636589B2 (en)

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019044961A1 (en) * 2017-09-04 2019-03-07 新日鐵住金株式会社 Pipe threaded joint, and method for producing pipe threaded joint

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0551787A (en) * 1991-06-11 1993-03-02 Nippon Steel Corp Chromate treated steel plate excellent in weldability and corrosion resistance, pitting resistance after coating.

Also Published As

Publication number Publication date
JPH05112891A (en) 1993-05-07

Similar Documents

Publication Publication Date Title
EP0182964A1 (en) High corrosion resistance composite plated steel strip and method for making
KR0167050B1 (en) Composite zinc-or zinc alloy-electroplated metal sheet and method for the production thereof
JP4845951B2 (en) Manufacturing method of surface-treated steel sheet, surface-treated steel sheet, and resin-coated surface-treated steel sheet obtained by coating surface-treated steel sheet with organic resin
JPS6323278B2 (en)
US4491623A (en) Double-layer electroplated steel article with corrosion resistance after painting and wet adhesion of paint film
JP2636589B2 (en) Zinc-nickel-chromium alloy electroplated steel sheet with excellent corrosion resistance, plating adhesion and chemical conversion treatment
JP2712924B2 (en) Zinc-nickel-chromium alloy electroplated steel sheet with excellent corrosion resistance, plating adhesion, chemical conversion treatment and coating film adhesion
JPS5993897A (en) Surface treated steel sheet having high corrosion resistance
JPH0447037B2 (en)
KR950000909B1 (en) Electroplated steel sheet having a plurality of coatings, excellent in workability, corrosion resistance and water-resistant paint adhesivity
JPS62294197A (en) Rustproof steel sheet for automobile and its production
JPS58104194A (en) Highly corrosion resistant electrogalvanized steel plate and its production
KR920010776B1 (en) High corrosion resistant steel sheets with two layer being of alloy metal and process for making
JPH04337098A (en) Zn-ni-mo multi-ply electrogalvanized steel sheet excellent in corrosion resistance and plating adhesion
KR920010778B1 (en) Excellant coating adhesive phosphate coating and water proof adhesive plating steel sheets and process for making
JP2569993B2 (en) Method for producing chromate-treated galvanized steel sheet with excellent corrosion resistance, fingerprint resistance and paintability
JP2619440B2 (en) Surface-treated steel sheet with excellent workability and paintability
JPH0536516B2 (en)
KR920010777B1 (en) Electroplating steel sheet with two layer being of alloy metal and process for making
JPH0456798A (en) Production of chromated galvanized steel sheet excellent in resistance to corrosion and fingerprinting, coating suitability and surface color tone
JPS6240398A (en) Double-plated steel sheet having high corrosion resistance
JPH0543799B2 (en)
KR930007927B1 (en) Two-layer plating alloy steel sheet of high corrosion resistance and method for producing the same
JPH0565700A (en) Resin coated zn-ni-cr-al2o3 type electroplated steel sheet and its production
JPH08225984A (en) Production of zinc-nickel alloy plated steel sheet excellent in plating appearance and adhesion and corrosion resistance