DE19655362B4 - Use of undiluted 2-component electrocoating for metallic bulk solids - Google Patents

Abstract

Use of an undiluted 2-component electrocoating paint
- Binders and
Pigment paste,
being the undiluted mixture of
Binders,
Pigments,
Fillers from the group of aluminum silicates, magnesium silicates of different chemical structure, silicon dioxide and kaolin, individually or in combination,
- additives,
- small amounts of solvent as well
- as solvent water and
- neutralizing agent exists and
wherein the undiluted electrocoating solid from 40 to 80 wt .-% and filler in an amount of 10 to 25 wt .-% in the undiluted lacquer, after subsequent dilution with water to processing solids of 8 to 25 wt .-% for the coating of metallic , electrically conductive bulk materials in a continuous flow coating device.

Description

Electrodeposition coatings are used in industrial coating technology there, where metallic conductive Substrates in high volumes to be painted. The method is based on the fact that in a paint pool than Anode or cathode connected workpieces are coated with paint. On the workpiece In this case, there is a neutralization of the paint system in solution and a precipitate on the electrode instead.

The Proven method especially for coating metal articles in high quantities. By the electrical deposition can thin non-porous Layers are achieved.

Next the known applications in the coating of automobile bodies There are a number of coatings known for surface finishing of industrial goods serve. Examples of this are steel rims, radiators, home appliances and many more.

Usually The parts are in automatic systems in a suspension, the the contact with the electrical voltage ensures that Supplied to the paint basin.

To the deposition, the deposited paint films pass a baking oven, in which the separated liquid Film is crosslinked to solid, thermosetting films.

The In principle, like all paint materials, from binders, pigments, fillers, Additives and small amounts of solvents as well as a solvent Water and neutralizing agent.

From Of crucial importance are usually the binders. These determine in their composition deposition, wraparound, tension stability, corrosion protection, Crosslinking etc. A distinction is made after deposition of the paint the anode anodic dip coatings (ATL) and at the cathode cathodic dip coatings (CED). The solubility In water, the binders usually z. B. by using Caboxylgruppen (ATL) or amino groups (KTL) ensured. There the deposition ensured by means of the electric field of tension will suffice low concentrations or paint solids. At the adoption depletes the environment of the electrode to paint, the subsequent delivery of Paint material from the watery Plunge pool is made by diffusion. According to the consumed Paint material is replaced by refill bath solids kept at a constant level. The paint components used in addition to the binders Pigments, fillers and additives have similar Meaning as in all other paint applications, in particular the use of fillers realized in electrocoating applications only to a small extent is because the properties of the paint film essentially by the Properties of the binder used in terms of physical-technological Values and behavior in the deposition are shown.

There generally thin Paint films applied with layer thicknesses of 35 microns and less be, and usually to achieve uniform thin layers small bath solids used, prohibits the use of large amounts of filler. The state of the art with the use of large bath volumes, low solids and Specifications, in particular by specific binder combinations achievable prohibits the use of larger quantities filler in the paint, as a result z. B. the settling of the diluted Badansatzes would be negatively affected.

The DE 44 42 509 A1 discloses a concentrate for making and supplementing electrocoating baths. The concentrate contains one or more cathodically depositable binders, pigments and optionally crosslinkers, organic solvents and / or fillers. Here, the solids content is 35 to 50 wt .-% and the weight ratio of pigments and fillers on the one hand to binders and crosslinkers on the other hand 0.01: 1 to 0.4: 1. The use of fillers is preferably avoided. The concentrate is designed as a one-component system, a use of two components is explicitly excluded.

The Use of the electrocoating process for small parts (metallic bulk materials) is prohibited in industrial practice in that the effort for suspension (electrical Contacting) of the small parts in no relation to the resulting Cost per part stands. For this reason, the coating of Small parts hesitant Entry into the industrial painting technology found.

There are known methods by which small parts are coated in a continuous process, for. As that of the Archimedean screw, in which a continuous coating in electrocoating of small parts is possible. The parts are not suspended individually, but guided in a screw conveyor through the paint basin (see also EP 0627022 B1 respectively. WO 93/17155 A1 respectively. DE 4205672 A1 ).

Of the Electrical contact is here through individual electrical contacts and the mutual contacting of the parts carried out in the bed. Of the The advantage of this method is the possibility of large quantities in short periods of time to continuously coat small parts. Following the Continuous partial coating, the parts as bulk material in a continuous furnace, heaped up on a kiln strip, the burning and curing of the Supplied paint film. The disadvantage of this method is that both in continuous flow machines as well as in the baking oven the parts contact each other and through the passing of the Parts and mutual contact of paint film against paint film both damage the Lacquer films, as well as during bonding a sticking of the paint films at the viscosity decrease while the baking process and subsequent fixation by the crosslinking occur. A broad use of this method is therefore only possible, if the proportion of damage the deposited paint film as well as the damage and sticking during the Burning be minimized.

Around to achieve this strikes the invention uses an undiluted 2-component electrocoating paint according to claim 1 before. It turns out that contrary to the prior art the use of larger quantities fillers in the electrodeposition paints used the damage described above clearly lower the paint films to a tolerable level.

The desired effect results in fillers having average particle sizes of 0.2-2 μm, preferably 0.3-0.7 μm, corresponding to 1-20%, preferably 2-10% of the layer thicknesses of the film to be deposited, the densities of the fillers are between 1 , 5 and 4.5 respectively, preferably 1.6-3.5 g / cm ³ .

As well affected the type of filler very much the positive effect as a so-called spacer as well the behavior in settling in the paint basin. It was determined, that in particular the use of structuring fillers selected from Aluminum silicates, magnesium silicates of different chemical Structure and silica and kaolin, individually or in combination, in certain particle size distributions, As described above, significant improvements in surface damage or gluing results.

The described undiluted Paint materials have solids from 40-80%, preferably 50-75% up and become for the processing with water on processing solids of 8-25% preferably 10-20%, dilute (all% in% by weight).

All essential is the amount of filler used. Related to the described undiluted Paint materials are usually according to the prior art, a maximum of 10% filler and less used.

The used according to the invention Quantities of filler are 10 to 25%, in the undiluted Lacquer preferably 15-23%.

When Another measure of the level of filling in the undiluted Paint material serves the pigment volume concentration PVK. The usual, The prior art PVK's are <10.

The used according to the invention Pigment volume concentrations are between 10.0 and 40, preferably between 12-35.

The The following examples show typical recipes that are up to date correspond to the technology. Example 1: An anodic dip coating recipe and Example 2: a cathodic dip coating formulation.

Examples 3 and 4 show corresponding formulations for anodic and cathodic deposition with binder-to-filler ratios as they correspond to the use according to the invention, in which low-damage black electrocoats of small parts were carried out. example 1 Example 2 53.0% Resydrol SWY 326 46.5% E45K Luhydran 20.0% Cymel 1130 10.0% Cymel 1130 5.5% amine solution 8.0% iso-butanol 8.0% iso-butanol 1.2% acetic acid 5.0% talc 5.0% talc 2.0% color cast 2.0% iso-decanol 6.5% water 25.3% water 2.0% color cast PVK = 5.0 PKV = 7.1 Example 3 Example 4 43.5% Reydrol SWY 326 32.3% E45K 12.0% Cymel 1130 7.0% Cymel 1130 5.5% amine solution 8.0% iso-butanol 8.0% iso-butanol 1.2% acetic acid 2.0% color cast 2.0% color cast 15.0% ASP 600 15.0% ASP 600 7.5% mod. synth. wax 7.5% mod. synth. wax 6.5% water 27.0% water PVK = 13.1 PVK = 18.5

Where: binder: Resydrol SWY 326 acrylic resin Luhydran E 45K Condensation product Epoxy resin and alipha amine Harder: Cymel 1130 Methylated, butylated Melamine formaldehyde crosslinkers Neutralizing agents: Amine solution 2-dimethylamino-ethanol acetic acid CH ₃ COOH Pigment (coloring): lampblack Carbon, armoph Filler: Talc: hydrated magnesium silicate ASP 600 Aluminim hydro-silicate Mod. Synthetic wax Polyethylene / halogenated carbon hydrogen Solvent: Isobutanol 2-methylpropan-1 Isodecanol Isomeric mixture of C10H21OH water H ₂ O.

At the Use of 2-component systems of binder and pigment paste, such as As used in KTL systems, the filler preferably used in the so-called pigment paste. Based on the solid the mixture uses the same filler concentrations as described above.

The particular advantages of the inventive use of the electric dip paint is that the filler addition reduces the adhesive effect of the parts to be coated together and also damages in the coating device, in particular drum etc. largely decreases.

moreover is the sticking together of the coated parts in the curing oven largely prevented. Also mechanical damage of the coated Parts by rolling over or the like in the drum are due to the high filler content avoided.

Claims (14)

Use of undiluted 2-component electrocoating out - Binders and Pigment paste, in which the undiluted Mix off Binders, Pigments, - Fillers from the group of aluminum silicates, different magnesium silicates chemical structure, silica and kaolin, individually or in Combination, - additives, - low Amounts of solvent such as - when solvent water and - Neutralizing agent exists and the undiluted electrocoating solid of 40 to 80 wt .-% and filler in an amount of 10 to 25 wt .-% in the undiluted lacquer, after subsequent dilution with Water on processing solids from 8 to 25 wt .-% for the coating of metallic, electrical conductive Bulk goods in one continuous flow coating device. Use of an undiluted 2-component electrocoating paint according to claim 1, characterized in that the undiluted lacquer filler in an amount of 15 to 23 wt .-% contains. Use of an undiluted 2-component electrocoating paint according to one of claims 1 or 2, characterized in that fillers with a middle Grain size of 0.2 up to 2 μm are used. Use of an undiluted 2-component electrocoating paint according to one of claims 1 or 3, characterized in that fillers with a middle Grain size of 0.3 up to 0.7 μm are used. Use of an undiluted 2-component electrodeposition paint according to claim 3 or 4, characterized that the mean grain size of the fillers 1 to 20% of the layer thickness of the deposited paint film corresponds. Use of an undiluted 2-component electrodeposition paint according to one of claims 3 to 5, characterized in that the mean grain size of the fillers 2 to 10% of the layer thickness corresponds to the deposited paint film. Use of an undiluted 2-component electrocoating paint according to one of claims 1 to 6, characterized in that the density of the fillers is between 1.5 and 4.5 g / cm ³ . Use of an undiluted 2-component electrodeposition paint according to claim 7, characterized in that the density of the fillers is between 1.6 and 3.5 g / cm ³ . Use of an undiluted 2-component electrocoating paint according to one of the claims 1 to 8, characterized in that the pigment volume concentration between 10 and 40% by volume. Use of an undiluted 2-component electrocoating paint according to claim 9, characterized in that the pigment volume concentration between 12 and 35% by volume. Use of an undiluted 2-component electrocoating paint according to claim 1, characterized in that the binder is carboxyl-containing or amino group-containing compounds are used. Use of an undiluted 2-component electrocoating paint according to claim 1, characterized in that the fillers the pigment paste are added. Use of an undiluted 2-component electrocoating paint according to claim 1, characterized in that the undiluted lacquer solid in the order of magnitude from 50 to 75% by weight. Use of an undiluted 2-component electrocoating paint according to claim 1, characterized in that the electrodeposition paint after dilution used with water on processing solids of 10 to 20 wt .-% becomes.