DE1301947B - Solution and process for thin-layer phosphating - Google Patents

Description

The invention relates to a solution for thin-film phosphating with Contents of alkali pyro-, poly-, meta- or orthophosphates and optionally others Reagents or substances such as accelerators, emulsifiers and / or wetting agents, as well as one or more compounds of the ethanolamines.

A known solution of this type can be used as a compound, g of an ethanolamine z. B. contain triethanolamine phosphate. The dissolution is accelerated, for example, by alkali nitrites, i. That is, it has not only triethanolamine, but also as a compound , nitrite.

In contrast, the subject matter of the invention is one as explained at the beginning Solution, with the new in a content of the solution of nitrites of the ethanolamines, in particular of triethanolamine nitrite. The solution can also be an additional Content of ethanolamine phosphates, in particular triethanolamine phosphate.

To demonstrate the technical progress that can be achieved according to the invention, comparative tests were carried out with a solution obtained by dissolving a mixture of acidic sodium pyrophosphate, neutral sodium pyrophosphate and triethanolamine polyphosphate in water. As an accelerator, triethanolamine in addition to sodium nitrite and, according to the invention, triethanolamine nitrite, each in analogous amounts corresponding to 0.3 g triethanolamine nitrite per liter, were continuously added to this solution.

With a throughput of metal sheets totaling 20 square meters in the known bath, the last sheets showed a non-uniformly colored, often barely recognizable phosphate layer and only a closed film in places. After thorough rinsing and passivation with a highly diluted chromic acid-phosphoric acid mixture with a ph value of 3.5 and drying, the last two sheets were primed using the spray method and given a layer of acrylic resin varnish. After the paint had been re-baked, a cross cut was made through the paint on one side and the sheet was treated in the salt spray chamber with a 3% saline solution at room temperature for a period of 5 minutes spraying time with interruptions of 55 minutes each in a salt spray atmosphere. After a test duration of 624 hours, there were some bubbles under the paint and a great many bubbles on the cross-cut. After the paint had been stripped off with a stripping paste containing methylene chloride, there was quite a lot of rusting underneath, particularly to the right and left of the cross-cut.

The same phosphating tests were carried out with deep-drawn sheets of the same quality with an analogous phosphating solution to which triethanolamine nitrite was added as an accelerator instead of triethanolamine and sodium nitrite. After a total of 20 square meters of sheet metal had been put through, the surface of the sheet was still colored uniformly blue and showed a closed film. After passivation and drying, the sheets were primed, painted, baked and given a cross cut with the same primer and the same paint with the same layer thickness as in the preliminary test. After a salt spray test of 1060 hours, in contrast to the preliminary test, the sheet metal showed no blistering under the paint and also no rusting under the surface on either side of the cross-cut.

These comparative tests show the superiority of the phosphating solution proven according to the invention over the known solution. Furthermore it will demonstrated that the simultaneous use of triethanolamine nitrite and triethanolamine phosphate can achieve optimal results. However, similar results are also achieved if you do not use the nitrite of triethanolamine, but those of mono- or Diethanolamine used. Another advantage of the invention is that the the neutralizing effect of the alkali nitrites need not be taken into account This means that precise monitoring of the pH value is no longer necessary as before is.

It has proven to be expedient to subject the treated objects to a subsequent passivation, i. H. post-treat them, for example, with a chromophosphoric acid solution or a solution of other known passivating agents. Further exemplary embodiments follow.

EXAMPLE 1 0.0511% triethanolamine nitrite is added to a 0.511% solution of sodium pyrophosphate. Objects made of iron or steel are treated with this solution at a pH of 2.5 to 4.0 and temperatures of 50 to 75 ° C. in a dipping, flooding or spraying process. After a short time, e.g. B. in the spray process after 1 minute, a clearly visible protective layer of high corrosion resistance has formed. Example 2 In a likewise 0.5% aqueous solution of sodium pyrophosphate, which also contains 0.05% triethanolainine nitrite and 0.050.10% triethanolamine phosphate, optimal results can be achieved with regard to treatment time and quality of the protective layer.

The solutions described can also be used to successfully thin Protective layers on other metals or their alloys, for example des Zinc, aluminum or magnesium.

Furthermore, it was found that the addition of nitrites of the ethanolamines, i.e. H. of mono-, di- or, in particular, triethanolamine, the protective layer formation is accelerated.

Claims (2)

Claims: 1. Solution for thin-layer phosphating with contents of alkali pyro-, poly-, meta- or orthophosphates and optionally other reagents or substances such as accelerators, emulsifiers and / or wetting agents, as well as one or more compounds of ethanolamines, characterized by a content of nitrites the ethanolamine, especially triethanolamine nitrite. 2. Solution according to claim 1, characterized by an additional content of ethanolamine phosphates, in particular triethanolamine phosphates. 3. Solution according to claims 1 and 2, characterized in that the content of the nitrites of the ethanolamines is about 0.1 to 25%, based on the weight of the alkali metal phosphates. 4. A method for thin-film phosphating using the solutions according to claims 1 to 3, characterized in that the treated objects are then passivated with known passivating agents, such as a chromophosphoric acid solution and the like., Are subjected.