DE1546948B2 - PROCESS FOR THE PRODUCTION OF COATINGS, COATINGS, VARNISHES ON METALS - Google Patents

Description

45

It is known that higher temperatures are required to cure applied stoving enamels or enamel paints. Usually contain the paint or paint colors considerable amounts of organic solvents, some of which have ₍₎ kierprozesses evaporate, but partly also initially remain in the wet film and escape later during the lactate. ₅ Curing generally takes place in drying ovens or with the aid of infrared rays at temperatures around 120 ° C. or higher. It is f now known that the freshly painted objects the Fünbrennpro may be subjected .eß not immediately after the paint application, but only after a "certain Abdunst or flash-off /. During this time, most of evaporated film even in paint _M) contained organic solvents, and only small amounts of poorly volatile solvents remain, the boiling point of which is so high that they only slowly escape during baking in the oven. The flash-off time can sometimes be kept short and often only needs a few Minutes / u; but if it is not adhered to, the solvents remaining in the wet film evaporate spontaneously during the stoving process, and undesirable disturbances in the surface of the hardened film occur, e.g. the formation of bubbles, a phenomenon which the lacquer is called "boiling". In addition, the flow and gloss of the surface deteriorate considerably.

In the industrial mass painting of workpieces, efforts are of course made to reduce the flash-off times To be kept as short as possible in order to achieve a high production output. Lacquers or lacquer paints, their The majority of the solvent or diluent is water, but can only be used for a long time Use flash-off times, although it is precisely the use of such types of paint because of their non-flammability would be of great benefit. Because water no longer dissolves the hardening film, it can pass through the closed It is difficult for the film surface to escape and so promotes the “boiling” of the paint surface during baking. Therefore, it is also difficult by processing aqueous dispersions or of water-miscible lacquers or lacquer paints diluted with water with the usual application methods by dipping, spraying or brushing to obtain thick coatings of a perfect surface, because the thicker the layer of lacquer, the greater the tendency to "boil".

Attempts have already been made to avoid dipping lacquer coatings, for example from nitrocellulose lacquers disadvantageous skin formation by drying that the air stream used for drying with paint solvent vapors is loaded (German Patent 424,446, French Patent 529,180). Through this drying is initially delayed, which makes the paint layer evenly soft should stay. The dosage of the solvent vapors must be done very carefully so that no the film dissolving effect occurs.

Furthermore, from the German patent specification 933,855 in a method for producing water and Abrasion-resistant glue paints known, the dried paint with a volatile, the Resin dissolving solvent to be treated by painting over or spraying over. Through this is to be achieved that the hydrophobic particle shells of the synthetic resin emulsion in the coating in the volatile solvents are partly swollen, partly dissolved, whereby the remaining hydrophilic bond of the emulsifier is destroyed and replaced by hydrophobic binding of the film mass.

From the German patent 615,219 it is still known, coatings of emulsion paints with solvents containing, for example, nitrocellulose can be post-treated by overmolding or spraying.

A special form of film deposition is electrophoretic coating. Thus, according to British Patent 492,160, metal containers are thereby made provided with a coating that they can be coated with a coating agent based on an oil-in-water emulsion or an aqueous wax dispersion, then hangs an electrode and a coating electrophoretically deposited. The rest is then poured out and used to remove Wall of adhering emulsion rinsed out. With the help of the electrophoretic process known as electrodeposition Paint deposition it is possible to control the thickness of the paint coatings and by regulation of current quantities and current densities every

to obtain the desired layer thickness. Because of the very long evaporation times and the pronounced boiling symptoms such coatings, however, is the introduction of the electrophoretic paint deposition of Stoving enamels made more difficult as a painting process.

During the process of exchanging the workpieces, it lies down on the electrophoretically deposited Another dip film overlay.

The task was to be solved, even with stoving enamels produced electrophoretically from water-thinned Coatings reduce the evaporation time and at the same time avoid any kind of drying in the oven to switch off occurring surface stinging and boiling phenomena and the immersion film with the To make electrophoretically deposited film compatible, so that the paint defects based thereon omitted.

It has been found that the listed deficiencies are eliminated in a method of manufacture of coatings, paints, varnishes on metals or other electrically conductive objects, in which the metals or other electrically conductive objects are connected as an anode in an as Electrolyte-acting, liquid, water-containing coating agent in which an aqueous solution of alkalis or ammonia and / or amines neutralized or made weakly alkaline synthetic resins, which contain numerous acidic groups in their molecule, with an acid number greater than 10 are used the application of the coatings, paints and varnishes from the bath liquid Electrophoresis takes place and the deposited coating layers, paints, varnishes after Removal from the container are hardened, which is characterized in that the deposited damp coating layers, paints or varnishes briefly before the start of the flash-off period Treated with organic, water-miscible solvents with a flash point of over 21 "C will.

A preferred embodiment of the method according to the invention provides that the separated, wet coating layers in a water-miscible, organic solvent containing Bath can be immersed for less than 30 seconds. The procedure can also be carried out in such a way that that the deposited, moist coating layers with gaseous or vaporous, water-miscible, organic Solvents are treated.

Solvent treatment of the electrodeposited coatings causes the Electrophoretic coating overlying dip film is completely peeled off and removed, and it is simultaneously the relatively thick electrophoresis layer withdrew a large part of the moisture contained in it. The electrophoresis layer is not attacked. The surprising result is that the The properties of the coating after the solvent treatment are largely similar to those of a film has been made from stoving enamels or enamel paints, but their volatile components only from organic Solvents exist.

The solvent treatment of the coatings according to the invention is not applicable to such wet films those from water-thinned paints by other common application methods, such as dipping, spraying or casting, because here the film is washed off again from the painted object.

It is limited to electrophoretically obtained coatings. The electrophoretic deposition gives another film state. There is probably a water-containing gel that has little or no Has flow properties. The short-term solvent treatment causes the paint on the Objects located only slightly attacked wet film. The outer surface is somewhat loosened, whereby irregularities in the structure of the surface are evened out. By the invention Method of solvent treatment, it was surprisingly achieved, with such wet films, which were obtained with the aid of electrophoresis from water-based paints or dispersions that lasted for a long time

π evaporation time of the water-based paints to the normal Reduce varnishes to the usual extent. The solvent treatment according to the invention also the boiling of the paint film during stoving is avoided and at the same time it is achieved that the flow and the gloss of the cured film surface is increased. Even coatings with dry film thicknesses of 100 microns and more can now can be hardened by baking without difficulty. The inventive method saves a long time Evaporation times, vacuum drying and preheating zones in the drying oven and thus enables a widespread use of electrophoresis as a painting method in industry.

The treatment of the wet film with water-miscible solvents can except by immersion of the painted objects in one bath, which contains the water-soluble solvents, also in another Embodiment take place, which is advantageous for many cases. According to this form of procedure, the the wet film carrying object passed through a gas zone in which the water-soluble solvents contained in gas or vapor zones. The gaseous solvents act in exactly the same way Mode dehydrating on the wet film, like a liquid solvent in the case of the one described above Immersion process. The evaporation time is also in accordance with this embodiment of the method according to the invention is reduced in the same way, and there are obtained bubbles free films after curing.

All water-miscible organic solvents are suitable for the process according to the invention, which have a flash point of over 21 ° C. Solvents preferably come from the Groups of alcohols such as diacetone alcohol, methoxybutanol, polyglycols and mono and polyglycol ethers into consideration, which are used both alone and in the form of mixtures can.

The technical effect of the method according to the invention is described below with reference to the method Examples clearly highlighted:

. example 1

The used, diluted with water solution of a stoving enamel has the following known composition tongue:

59.5 grams of a drying, medium-oil rib alkyd resin with an oil content of 40%, a phthalic anhydride content of 38%, an acid number of approx. 25 and a hydroxyl number of approx. 80,

15.0 grams of a 60% solution in a known manner by condensation of melamine with Formaldehyde and methanol obtained melamine resin in water,

25.5 grams of butyl glycol and

200.0 grams of water.

The alkyd resin was neutralized with potassium hydroxide so that the diluted solution had a pH value of 7.5. Two degreased iron sheets of 10x10 cm ^{2 were} immersed in this solution and connected to a direct current source, one sheet being the cathode and the other the anode represents. In a known manner, a coating is now deposited electrophoretically on the sheet metal connected as anode at a current density of 14 milliamperes / cm ^2. The potential difference between the tiles was between 12 and 60 volts. The current was held at 300 milliamperes. Electrophoresis was carried out for 4 minutes. The wet film obtained was flashed off in air for 45 minutes and then baked at 170 ° C. for 20 minutes. The layer thickness was between 80 and 85 microns. The surface was not free from bubbles and the film was poorly leveled.

Example2

25th

It was, as described in Example 1, a wet film which was allowed to drain for 5 minutes. He was then immersed in a solvent bath for 15 seconds, which contained butyl glycol, dipped. The film was then allowed to flash off for 10 minutes and 20 Bake in for minutes at 170 ° C. The layer thickness was between 70 and 80 microns. The surface was now free of bubbles and showed a very good flow.

Example! 3

A. It was a water-diluted solution of a stoving enamel with the following composition used:

47.9 grams of the alkyd resin described in Example 1,

34.4 grams of the melamine resin described in Example 1, ' \ U ":

25.5 grams of butyl glycol,
192.2 grams of water.

The alkyd resin was neutralized with diethanolamine so that the dilute solution has a pH of 7.5. Two degreased iron sheets of 10 × 10 cm ^{2 are} immersed in this solution and connected to a direct current source, one sheet being the cathode and the other the anode. In a known manner, a coating is now deposited electrophoretically on the sheet metal connected as anode at a current density of 1.5 milliamperes / cm ^2. The potential difference between the sheets was between 17 and 87 volts. The current was kept at 300 milliamps and the electrophoresis was carried out for 4 minutes

B. The resulting wet film was flashed off in air for 45 minutes and then for 20 minutes at 170 "C baked in. The layer thickness was between 45 and 48 microns. There was no solvent treatment. The surface was not free from bubbles and the FUm was poorly leveled.

C. The wet film was allowed to drain for 5 minutes. A coated sheet was then placed in each case In one of the solvents or solvent mixtures listed in the table for 10 seconds swiveled and then baked for 20 minutes at 170 ° C. The results of the surface assessment can also be found in the table.

Serial No. Solvent or mixture Result bad Layer thickness 1 distilled water Well X micron 2 acetone XX 45-50 3 Butyl glycol 40-45 4th Acetone and distilled water 0 43-45 (Ratio 1: 1) XXX 5 Acetone and dist. water 45 and butyl glycol (ratio 1: 1: 1) XXX 6th Butyl glycol and dist. water 45-48 (Ratio 1: 1) XXX 7th Methanol XX 48 8th Isopropanol XX 43-45 9 tert-butanol XX 45 10 3-methoxybutanol 44-45 11th n-butyl diglycol 0 45 ^ 16 12th Methyl glycol acetate 0 44-46 13th Diacetone alcohol 0 45-48 0 45

They mean in detail:

χ = The surface is porous and uneven.

xx = severe boiling phenomena; unusable film.

xxx = bad surface
with strong inner
Surface defects.

Ö = the surface sees
good looking, is smooth and good
tense.

Claims (3)

Patent claims: 1. Process for producing coatings, paints, varnishes on metals or others electrically conductive objects, in which the metals or the other electrically conductive objects connected as an anode in a liquid, water-containing coating agent that acts as an electrolyte, in which an aqueous solution of neutralized with ammonia and / or amines or weakly alkalized synthetic resins that have numerous acidic groups in their molecule contain, can be used with an acid number of more than 10, with the application of the coating μ ge, paints, varnishes from the bath liquid is done by electrophoresis and the deposited Coating layers, paints, varnishes hardened after removal from the container are characterized in that the deposited moist coating layers, Coatings, varnishes before the start of the flash-off period briefly with organic, water-miscible Solvents with a flash point above 21 ° C are treated. 2. The method according to claim 1, characterized in that the deposited, moist coating layers in a bath containing the water-miscible, organic solvents less than Be immersed for 30 seconds. 3. The method according to claim 1, characterized in that the deposited, moist coating layers treated with gaseous or vaporous, water-miscible, organic solvents will.