DE3509556A1 - METHOD AND COATING AGENT FOR TREATING METAL SURFACES - Google Patents

Description

PARKER CHEMICAL COMPANY March 07, 1985

Madison Heights, Michigan DROZ / LWÜ / 2043P

Prov. No. 9299 M

Process and coating agent for the treatment of metal surfaces

The invention relates to a method for treating metal surfaces by applying chromium VI, silicate and / or aqueous, acidic coating agents containing silica, phosphate and chromium (III) and subsequent drying of the coating agent, its application for the treatment of cold-rolled steel and for the implementation of the process suitable coating agents.

The need to have coatings on metal surfaces, in particular For pretreatment prior to subsequent painting, it has been known for a long time. In this context special attention is paid to the paint adhesion on the metal surface, the moisture resistance of the painted metal surface, the salt spray resistance and the corrosion behavior of the painted one determined using other methods Item for free. If a deformation of the painted surface is intended, the deformability and the corrosion resistance after deformation is important.

In the past, difficulties have often arisen in the development of coating compositions and methods of treatment of metal surfaces occurred when products were required that would give satisfactory results during and after deformation Paint adhesion and a satisfactory corrosion resistance should have. For example, are usually high layer weights with regard to corrosion protection, but low layer weights required for deformation. in the

in general it can be stated that conventional coating agents and methods of treating metal surfaces multi-stage treatment methods with water rinsing after each Require level of treatment. However, this involves a lot of personnel, contamination problems between the stages, a considerable system length and wastewater problems associated with the rinsing water.

The object of the invention is to provide a method and coating agent for the treatment of metal surfaces, which The known method does not have disadvantages, is easy to carry out and of high quality, in particular anti-corrosive coatings leads.

The object is achieved in that the method of the type mentioned at the outset is designed in accordance with the invention is that one applies a coating agent in which the weight ratio of chromium VI: chromium in the range of (0.6 to 0.95): 1.

Preferred embodiments of the method according to the invention plan to apply a coating agent,

in which the weight ratio of PO. : Chromium _affl in the range from (0.1 to 5): 1, preferably from (0.1 to 1): 1, or

in which the weight ratio chromium VI: SiO ₃ : PO ₄ :

Chrome. in the range of (0.6 to 0.95): (0.5 to 5.0): total

(0.1 to 5.0): 1 is or

in which the weight ratio chromium VI: SiO ^: PO. : Chromium _amt in the range of (0.75 to 0.95): (1 to 3): (0.1 to 1.0): 1.

The phosphate and chromate components can be used in the of the process according to the invention, certain coating agents are introduced in any form, provided that the This does not affect the quality of the adhesion-promoting coating. The addition as an alkali metal salt should be like this should be kept as low as possible and avoided entirely, as this can result in a loss of quality. Phosphate and Chromium VI is preferably used as comparatively easily soluble salts of bivalent or trivalent metals or of thermally stable ammonium or amine compounds (including the Double salts with the aforementioned metals) or introduced as an acid. Suitable divalent or trivalent metals are for example zinc, manganese, chromium, nickel, cobalt and iron. The chromate component is preferably used as zinc dichromate or Chromic acid and the phosphate component added as zinc dihydrogen phosphate.

The silicate or the silicic acid should be soluble in the coating agent or - with the formation of a colloidal dispersion - homogeneous be dispersible. It is therefore preferably used in finely divided form. Are particularly suitable Aerosols or precipitated silica, but naturally occurring and finely ground quartz or Diatomaceous earth can be used if they can be dispersed homogeneously. Silicates such as montmorillonite, or synthetic fluorosilicates, such as magnesium fluorosilicate with the trade name Laponit, are used will. The use of soluble sodium or potassium silicates or fluorosilicates is less preferred because these compounds have a tendency to form vitreous coatings with poor adhesion. Therefore, the use becomes more water-insoluble Silicic acid or silicates, which can be distributed colloidally, are preferred.

The chromium III content can be reduced by partial reduction of a

aqueous chromic acid, e.g. with starch under heating, are produced in the usual way (e.g. according to US Pat. No. 3,706,603), then the resulting solution chromium VI and chromium III compounds contains.

In addition to the aforementioned compounds, the coating agent used in the process according to the invention can be used received further additions. These are e.g. divalent or trivalent metal cations, such as zinc, Manganese, cobalt, nickel or iron, inert color pigments to give the coating a specific color, silicone compounds, Conductivity-inducing materials, such as powdered metal (see e.g. US Pat. No. 3,671,331) or conductive carbon, to increase weldability, as well as emulsifiers that keep the resin component in the dispersed state. Of the The commercially available aqueous resin dispersion usually already contains emulsifier.

The coating agent can be used without adjusting the pH value. When the ingredients are divalent or trivalent as a salt Metals or acids are added, the pH will normally be below 2.5. When adding the ingredients in In the form of ammonium or amine salts, the pH value should be higher.

The coating agent can be produced by taking into account the individual components to be adjusted Weight ratios can be introduced in any order. However, the silica or the silicate is preferred added after the partial reduction of the hexavalent chromium, provided that the reduction is carried out with heating otherwise the dispersibility of silica or silicate is deteriorated. The aforementioned recommendation applies only in the event that the chromium-III compound is off Chromium VI is obtained by reduction.

Since no significant reaction with the metal surface before the When drying takes place, the components of the film on the metal surface are initially the same Concentration present as in the coating agent itself. Therefore, the concentrations of the effective components are in the supplement essentially the same as in the working coating agent. This ensures bath control and product uniformity favored.

The application of the aqueous coating agent to the metal surface can be done in any way as long as care is taken to ensure that it is of reasonable and uniform thickness of the aqueous film is formed. For flat surfaces, such as strip or sheet metal, the film thickness can be easily adjusted by rolling or squeeze rollers are controlled, the previous type of application being arbitrary and, for example, electrostatic or by means of spray technology.

Those generated with the aid of the method according to the invention Layer thicknesses can be selected within wide limits and are, for example, 4.3 g / m and higher. Usually that will

2 layer weights are in the range from 54 to 1,076 mg / m. Typical layer weights for aluminum surfaces are 54 to

2 2

162 mg / m, for steel surfaces 162 to 270 mg / m and for

Zinc surfaces 108 to 216 mg / m.

The detailed process conditions are usually set depending on the desired layer weight. Ever After the total concentration of the constituents of the coating agent, a film of a certain thickness is applied to the metal surface and then dried up. During the drying process, the concentration of the constituents of the coating agent and increases the reaction begins between it and the metal surface.

It has been shown that the process is particularly favorable

can be carried out if a coating agent is applied whose chromium content is 0.8 to 12% by weight, preferably 0.8 to 8% by weight.

The coating agent can be applied at ambient temperature. In order to accelerate the process, however, the coating agent and / or metal surface can be heated. For example, when dipping or Aufrollbehandlung the temperature of the metal to 93 ⁰ C or brought up, without that the treatment is impaired. With the spray-on technique, even higher metal temperatures can be set. The type of drying is not critical as long as the liquid film is not excessively interrupted or torn, for example by hot air currents or physical contact during drying. However, the type of drying can influence the temperature required for drying. For example, drying is achieved at a lower, maximum object temperature if it takes place in an infrared oven instead of a conventional oven.

Under normal conditions, the use of elevated oven temperatures and hot air currents is of a speed which do not adversely affect the wet film, are preferred. From a practical point of view, the oven temperature should be measured in this way be that a metal temperature (maximum object temperature) of 52 to 163 ° C results.

Paint, varnish and the like can be applied to the dried layer can be applied in the usual way. Even if the individual paints or varnishes used, the corrosion resistance and the Affect adhesion differently, it has been shown that most of the commercially available colors tested and lacquers, the process according to the invention leads to results that are obtained with two- or three-stage conventional processes are comparable.

The method according to the invention is for the treatment of aluminum, Zinc, galvanized steel and ferrous metal surfaces and alloys thereof are suitable. A preferred one The application of the method according to the invention lies in the treatment of cold-rolled steel, in particular because of the achievable high corrosion resistance and the achievable flawless deformability of painted and temporarily stored strip or sheet metal.

Part of the invention is an aqueous coating agent for the treatment of metal surfaces with a content of chromium VI, Silicate and / or silica, phosphate and chromium-III, which is characterized in that it is chromium-VI: chromium, im Contains weight ratio of (0.6 to 0.95): 1.

Preferred embodiments provide a coating agent that

PO. : Chrome. in a weight ratio of (0.1 to 5): 4 total.

1, preferably from (0.1 to 1): 1 contains or

the chromium VI: SiO ₀ : PO. : Chrome. in weight

2 4 total

ratio of (0.6 to 0.95): (0.5 to 5.0): (0.1 to 5.0): 1, preferably

from (0.75 to 0.95): (1 to 3): (0.1 to 1.0): 1 contains.

The absolute content of the active constituents of the coating agent depends essentially on the type of application. in the in general, the chromium content is 0.8 to 12% by weight, preferably 0.8 to 8% by weight.

The advantage of the invention is in particular that only a single application of coating agent without rinsing takes place, yet high corrosion protection - even with low layer weights - and good deformability due to good adhesion can be achieved by paint or varnish. A wide variety of metals can be treated.

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The invention is described by way of example and in greater detail with the aid of the examples.

example 1

To produce a coating agent, a chromic acid solution is added by partial reduction of the chromium VI with starch Heat transferred into a chromium-VI and chromium-III containing solution. Then with phosphoric acid and a 10% (wt .- / vol.) Aerosil dispersion (silica ground in water) added so that a dispersion with a Chromium VI: PO weight ratio. : SiO-:

Chrome. as 0.87: 0.97: 2.0: 1.0 results, total

The coating composition was applied to cold rolled steel sheets with corrugated nip rolls, so that after drying in a conventional oven to a maximum temperature of the metal at 82 to 93 ⁰ C a layer weight of 0.4 and once einmi
Sheet two weeks.

one time 0.4 and one time 0.183 g / m 2. Then they rested

Then some of the sheets were coated with a one-layer polyester varnish, some with a single layer vinyl lacquer and some with a two layer epoxy polyester lacquer. All sheets showed good paint adhesion, good corrosion resistance and good deformability.

Example 2

Following the procedure of Example 1, three coating agents were produced which contain the components CrVI, PO ₄ , SiO ₃

and Cr. contained in the following weight ratios, total

Coating agent 2a 0.6: 0.32: 2.0: 1.0 Coating agent 2b 0.6: 0.65: 2.0: 1.0 Coating agent 2c 0.6: 0.97: 2.0: 1.0

■ Μ-

As in Example 1, coatings were applied by means of the aforementioned coating agents at a maximum object temperature of up to 93 ^° C. in a conventional oven. The panels thus pretreated were then painted.

A comparison of the treated sheets showed that the corrosion protection (determined in the salt spray test) _{improved with increasing PO 4} content, but that deformability decreased.

Example 3

Cold-rolled steel was coated with a coating agent in which the weight ratio CrVI: PO. : SiO ": Cr.

4 2 total

0.93: 0.32: 2.0: 1.0 by the roller application method a practice

brings.

the weight ratio CrVI: PO. : SiO ": Cr.

4 2 total

:, nac

a coating with 0.215 g / m (after drying)

Drying took place at a maximum object temperature of 149 ^° C. After cooling in the room for 30 seconds, the metal sheets were painted as indicated in Example 1. All sheets had good corrosion resistance, good paint adhesion properties and good deformability.

Example 4

The coating agent according to Example 3 was applied to the surface of hot-rolled sheet steel which had been preheated to approx had been applied. After about 1 minute, the sheets were coated with a single-layer polyester lacquer or with a two-layer epoxy polyester topcoat Mistake. These sheets treated in this way were characterized by excellent corrosion resistance, excellent paint adhesion and deformability.

Claims (10)

Claims 1. A process for the treatment of metal surfaces by applying chromium VI, silicate and / or silica, phosphate and chromium III containing aqueous, acidic coating agents and subsequent drying of the coating agent, characterized in that a coating agent is applied in which the weight ratio of Chromium VI: chromium. in the range from (0.6 to total 0.95): 1. 2. The method according to claim 1, characterized in that a coating agent is applied in which the weight ratio of PO. : Chrome. in the range of (0.1 4 total to 5): 1, preferably from (0.1 to 1): 1. 3. The method according to claim 1 or 2, characterized in that a coating agent is applied in which the weight ratio of chromium VI: SiO_: PO ₄ : Chromium in the range of (0.6 to 0.95): (0.5 to total 5.0): (0.1 to 5.0): 1. 4. The method according to claim 1 or 2, characterized in that a coating agent is applied in which the weight ratio of chromium VI: SiO _? : PO. : Chrome. in the range from (0.75 to 95): (1 to total 3): (0.1 to 1.0): 1. 5. The method according to claim 1, 2, 3 or 4, characterized in that a coating agent is applied whose chromium _{content is} 0.8 to 12, preferably 0.8 to 8 wt .-%. 6. Application of the method according to one or more of claims 1 to 5 to the treatment of cold-rolled Stole. 7. Aqueous coating agent for the treatment of metal surfaces with a content of chromium-VI, silicate and / or silica, phosphate and chromium-III, characterized in that it is chromium-VI: chromium, in the total weight ratio nis from (0.6 to 0.95): 1. 8. Coating agent according to claim 7, characterized in that that it PO. : Chrome. in a weight ratio of 4 total (0.1 to 5): 1, preferably from (0.1 to 1): 1. 9. Coating agent according to claim 7 or 8, characterized in that it is chromium VI: SiO ₂ : PO. : Chrome. in a weight ratio of (0.6 to 0.95): total (0.5 to 5.0): (0.1 to 5.0): 1, preferably in a weight ratio of (0.75 to 0.95): (1 to 3): (0.1 up to 1.0): 1. 10. Coating agent according to claim 7, 8 or 9, characterized in that it contains 0.8 to 12% by weight, preferably 0.8 to 8% by weight, ^01117010 CeSaTOt '.