DE1951776C3 - Solution for polishing and passivating surfaces made of zinc or zinc-iron alloys - Google Patents

Description

The invention relates to a solution for shining and passivating surfaces made of zinc or zinc-iron alloys, especially of those that have been formed by hot-dip galvanizing. Treatment of the Zinc surfaces with the solution according to the invention lead to corrosion-resistant, bright surfaces.

It has long been known that zinc surfaces have many uncoated, abraded, or scraped off surfaces Places are available. These defects in the zinc coating reduce the corrosion resistance or the shine of the zinc surface.

Attempts have been made so far by treating the zinc surfaces with a concentrated aqueous chromate solution containing a small amount of sulfuric acid, nitric acid, hydrochloric acid, or hydrofluoric acid contains to improve.

With this usual treatment, only zinc-bed surfaces can be used can be made bright and corrosion-resistant. The zinc-iron alloy surfaces that are under the zinc surfaces and due to mechanical cracks or scratches in the zinc surface or due to defects in the Zinc coating come to the surface, it turns dark, and there is a big difference in gloss and appearance between the zinc and zinc-iron alloy surfaces.

Attempts have also been made to obtain zinc surfaces with surfaces made of zinc-iron alloys, with an aqueous solution, the phosphate ions corresponding to 0.5-2 wt .-% phosphoric acid and either Chromal ions corresponding to 0.5-3% by weight of chromic acid or nitrite ions corresponding to 0.1-0.4% by weight of sodium nitrite, to be treated at pH 1.3-3.8. However, this treatment cannot give completely satisfactory results; so shows this solution z. B. only a low shining effect, and not only the zinc-iron alloy surfaces, but Likewise, the zinc surfaces turn pale yellow and easily corrode if left on for 10 days continuously immersed in a 5% sodium chloride solution

From FR-PS 11 90 562 is a solution to Manufacture of coatings on metals known, the chromate ions, polyphosphoric acid ions and fluoride ions contains. Surfaces made of zinc or zinc-iron alloys treated with this solution tend, however especially in the latter case, it is still very corrosive.

In US-PS 30 60 071 a solution for the treatment of zinc surfaces is given, in addition to Chromate contains nitrate ions and an organic acid, sulfuric acid and also a fluoride. the Zinc surfaces treated with this solution are gray or, in the case of zinc-iron alloys, black and not shiny. This solution also hardly provides any protection against corrosion.

Finally, US-PS 26 34 224 describes a solution for shining and passivating zinc or zinc-containing surfaces containing chromic acid, sulfuric acid, o-phosphoric acid and nitric acid. Even with the help of this solution, it is not possible. Zinc-iron alloy surfaces completely protect against corrosion.

It is the object of the present invention to develop a solution with the help of which it is possible. Surfaces made of zinc and zinc-iron alloys give them a silvery, metallic sheen to completely protect against corrosion and to protect the defective surfaces resulting from hot-dip galvanizing, to smooth exposed areas, abrasions, abrasions, burn marks and rough spots and make it uniform. In addition, the surfaces treated with the solution should have good adhesion opposite colors.

This object is achieved according to the invention by a solution for shining and passivating surfaces made of zinc or zinc-iron alloys, containing nitrate ions as well as a chromate and a phosphate compound, which is characterized in that it contains 36 to 290 g / l of bichromate ions (Cr ₂ O ₇ -), 4.1 to 41 g / l nitrate ions (NO ₃ -), 0.7 to 21 g / l

Tripolyphosphate ions (P ₃ OiO) and additionally

an organic acid such as formic acid, oxalic acid, tartaric acid, citric acid, propionic acid, acetic acid and / or their sodium or potassium salts and contains a surfactant and a pH value from 0.3 to 1.5.

The solution according to the invention is applied by bringing the object to be treated for 10 to 180 seconds at a temperature of 10 to 50 ⁰ C and advantageously 30 to 60 seconds at a temperature of about 25 to 35 ° C with the solution, then rinse with water and dry by warming or in the air.

The pH of the solution should advantageously be 0.5 to 1.3. When the pH of the aqueous solution is lower than 0.3, the zinc-iron alloy surfaces cannot be given a good shine and the upper half of pH 1.5 are the zinc and zinc-iron alloy surfaces covered with a thin chromate film. After prolonged treatment, if the acidity of the aqueous solution is reduced by consumption of the

Components will sink and the solution will contain many different impurities or foreign elements from the treated objects may contain bichromations, Nitrate ions or other necessary ingredients are added back to the aqueous solution to obtain the specified composition and pH range. Many different impurities or foreign elements that have come into the solution from the treated objects are small Influence on the effectiveness of the treatment.

Cations have no effect on the effect of the treatment, but potassium ions (K ⁺ ) in an amount of 1.3-26.6 g / l reduce the amount of zinc that dissolves in the aqueous solution to less than half that Amount that is dissolved in the absence of potassium ions.

For the treatment, immersion or spray methods can be used, and all objects that Zinc or zinc-iron alloy surfaces, like galvanized iron sheet, have objects made of alloys zinc based or zinc objects, can be treated successfully. As reagents normal commercial products can be used.

In the preferred embodiment of the invention, the aqueous solutions are prepared by 30-200 g / l chromium trioxide, 5-50 ml / l 60% nitric acid, 1-30 g / l sodium tripolyphosphate, 5-100 g / l Potassium dichromate, a small amount of salts of organic acids and surfactants in Water there.

Chromic anhydride or chromium trioxide can be used as a source for the bichromate ions as well various salts such as potassium dichromate, sodium dichromate, and ammonium dichromate. Potassium dichromate is used as the preferred source of the dichromate and potassium ions.

Tripolyphosphate has the shiny effect only when it is in the presence of bichromate and Nitrate ion is used, although it almost does not work when it is in the absence of either bichromate or of nitrate ions is used. Many organic acids or salts, such as formic acid, oxalic acid, tartaric acid, citric acid, propionic acid, acetic acid and their potassium or Sodium salts can be used. As a surface-active Substances can be polyoxyethylene-alkyl-ether, polyoxyethylene-alkylphenol, Polyoxyethylene fatty acid ester, polyoxyethylene sorbitan fatty acid ester, polyoxyethylene alkyl amine or polyoxyethylene amide can be used, and they contribute to the solubility of To reduce zinc, and to smooth the zinc or zinc alloy surfaces.

The advantages of this invention are numerous.

Zinc surfaces and zinc-iron surfaces are made evenly bright and show no difference in appearance, and the treated zinc or zinc-iron surfaces have good resistance against corrosion.

The invention is illustrated in more detail by the following examples.

example 1

Hot-dip galvanized steel tubes with a diameter of 16 mm and 300 mm in length, which had some scratches and defects in the coating, were washed with 3% aqueous Sodium hydroxide solution (NaOH) degreased at 70 ° C. for 30 seconds and then with an aqueous 3% phosphoric acid

acid solution (H ₃ PO ₄₎ 5 see at 70 ⁰ C pickled steel tubes were after this pretreatment in a bath of an aqueous solution having the following composition, at 30 ⁰ C 3C see immersed composition of the bath:

pH 0.7

CrO ₃ 70 g IC ₂ Cr ₂ O ₇ 40 g ENT ₃ (60%) 20 ml Na ₅ P ₃ O ₁₀ 10g Na acetate 2g Surface active substance 0.05 g water 1000 ml

After the treatment, the steel tubes were using Rinsed with water and dried. A nice metallic sheen could be on both the zinc and on the zinc-iron alloy surfaces are obtained, and the defects in the surface became almost invisible.

Example 2

Example 1 was repeated except that a bath of an aqueous solution having the following composition was used for 60 seconds at 30 ° C.
Composition of the bath:

pH 0.9

CrO ₃ 50 g K ₂ Cr ₂ O ₇ 30 g ENT ₃ (60%) 15 ml Ma ₅ P ₃ O ₁₁ , 7g Na acetate ig Surface active agent (Polyoxyethylene-alkyl- phenol) 0.05 g water 1000 ml

A beautiful metallic sheen could just as well as in Example 1 can be obtained.

Example 3

Example 1 was repeated for flawlessly galvanized sheet iron. The corrosion resistance was extraordinarily raised, and a beautiful metallic one Shine could be preserved.

Corrosion resistant 1

Hot-dip galvanized steel tubes of 16 mm diameter and 300 mm length were dipped at 3O ⁰ C in a 50% aqueous solution of sodium chloride. An untreated tube was corroded within one day, and a tube treated according to Example 1 survived the treatment for 30 days and on the 31st day 3 points of pitting corrosion were discovered, but the gloss of the surface was almost unchanged.

A tube which has been treated by the usual procedure as described below, was first applied to the part of the zinc-iron alloy surfaces Corroded within 10 days, and after 15 days the corrosion spread over the entire surface.

The usual procedure

6s The article was 20 seconds at room temperature immersed in a first bath, which the following assembly owned.

CrO ₃

ENT ₃ (60%)
HR (50%)
H ₂ SO ₄ (98%)
water

200 g 40 ml 30 ml 10 ml

920 ml

It was then immersed in a second bath containing 50 g / l CrO ₃ at room temperature for 20 seconds.

Corrosion test 2

A 5% aqueous sodium chloride solution was sprayed onto hot-dip galvanized steel pipes. Here joined a steel pipe treated according to Example 1 after 120 Hours of pitting corrosion on and on an untreated steel pipe after 10 hours.

Claims (5)

Patent claims: 1. Solution for shining and passivating surfaces made of zinc or zinc-iron alloys, containing nitrate ions iowie a chromate and a phosphate compound, characterized in that it contains 36 to 290 g / l bichromate ions (Cr ₂ O ₇ -), 4 , 1 to 41 g / l nitrate ions (NO ₃ -). 0.7 to 21 g / l tripolyphosphate ions (P3O10) and an additional organic acid such as formic acid, oxalic acid, tartaric acid, citric acid, propionic acid, Contains acetic acid, and / or its sodium or potassium salts and a surfactant and has a pH of 0.3 to 1.5. 2. Solution according to claim 1, characterized in that it contains 13 to 26.6 g / l potassium ions (K ⁺ ). 3. Solution according to claim 1 or 2, characterized in that it is a source of chromium trioxide the bichromate ions and potassium bichromate both as a source for the potassium ions and for the Contains bichromations. 4. Solution according to claim 1 or 3, characterized in that it is used as a surfactant contains a nonionic surfactant. 5. Use of the solutions according to claim 1 to 4, wherein objects with zinc surfaces are immersed in the aqueous solution for ^{10 to 180 seconds, preferably 30 to 60 seconds at a temperature of 10 to 50 °} C., preferably about 30 ^{° C.}