The method according to the invention consists in that the carrier is covered with at least two varnished layers, the two layers being made of electron curable varnishes, which may contain an additive increasing adhesion between the layers, and if the layer which is applied first, counting from the side of the carrier, containing an interlayer adhesion increasing additive, is irradiated with an excimer lamp and then pre-polymerized by electron radiation or UV light, then after applying the second layer also containing an interlayer adhesion increasing additive, the combined layers are cured by electron radiation or UV light. On the other hand, if the layer applied first, counting from the carrier side, is only pre-polymerized by electron radiation or UV light, then after applying the second layer, which then contains an additive increasing adhesion between the layers, it is subjected to irradiation by an excimer lamp and then the combined layers are cured by electron radiation or UV light. As a result, it is possible to obtain a product whose layer refined with excimer lamp and the layer only cured with electron radiation or UV light, are bound together regardless of the order of their occurrence.

Provided is an apparatus for treating a workpiece, in particular a plate-shaped workpiece, said apparatus comprising: a coating device configured to apply a coating material, in particular a strip-shaped coating material, to a workpiece; a lacquer application device configured to apply a lacquer to the coating material; and a structuring device configured to adjust a gloss value and/or a haptic property of the surface provided with the lacquer.

A method of preparing a coated article is disclosed. The method includes providing a substrate bearing a partially-dehydrated aqueous coating layer. The method further includes providing a coating composition to a high transfer efficiency applicator, the high transfer efficiency applicator comprising a plurality of nozzles each being configured to apply a stream of the coating composition to a substrate substantially without atomization. The coating composition is a waterborne fluid that exhibits a near-Newtonian viscosity profile, and comprises a binder, a crosslinker, and a thickener. The method further includes applying the coating composition to the substrate with the high transfer efficiency applicator via disposing a plurality of lines of the coating composition onto the partially-dehydrated aqueous coating layer of the substrate via the plurality of nozzles, thereby forming an overspray free coating layer thereon.

A method and related apparatus for generating a surface structure includes the steps of: (A) applying a resin A on the surface of a material; (B) applying a liquid B on at least one portion of the resin A, when the resin A is liquid or partially solidified; (C) polymerizing, also separately, the resin A and the liquid B; and (D) removing the polymerized liquid B.

The invention relates to aqueous dispersions comprising multistage-prepared polymers, and also to coating material compositions comprising them, preparable by multistage polymerization of olefinically unsaturated monomers, using an emulsifier and a water-soluble initiator, under conditions of starved feed polymerization, and using particular monomer mixtures in the individual stages.

The invention also relates to a pigmented aqueous basecoat material comprising the aqueous dispersion of the invention, to the use of the aqueous dispersion of the invention in aqueous basecoat materials for improving adhesion, to a process for producing a multicoat paint system on a substrate, and to a multicoat paint system produced in accordance with the stated process.

The present invention relates to an aqueous polyurethane dispersion comprising: a polyurethane A having pendant acid salt groups and end-standing carbonyl groups, and optionally a multifunctional compound B having functional groups reactable with the carbonyl groups of polyurethane A. The present invention further relates to a method for producing said aqueous polyurethane dispersion and to a coating comprising said aqueous polyurethane dispersion.

The present invention relates to a method for producing a multicoat coating (M) on a substrate (S) that comprises the following steps: (I) producing a basecoat (B) on the substrate by applying an aqueous basecoat material (b) to the substrate (S), the basecoat material being a two-component coating composition, and (II) producing a clearcoat (K) directly on the basecoat (B) by applying an aqueous clearcoat material (k) directly to the basecoat (B), the clearcoat material being a two-component coating composition. The present invention also relates to the multicoat coatings produced accordingly and also to their use.

The present invention relates to a method for producing dirt-repellent coatings on metal surfaces, more particularly on wheel rims, wherein an optionally precoated metal surface has applied to it a coating material composition (K) which comprises a) at least one polyhydroxyl group-containing component (A), b) at least one component (B) having on average at least one isocyanate group and having on average at least one hydrolyzable silane group of the formula (I)

XSiR.sup.3.sub.sG.sub.3-s(I) where G=identical or different hydrolyzable groups, X=organic radical, R.sup.3=alkyl, cycloalkyl, aryl, or aralkyl, it being possible for the carbon chain to be interrupted by nonadjacent oxygen, sulfur, or NRa groups, with Ra=alkyl, cycloalkyl, aryl, or aralkyl, s=0 to 2, c) at least one phosphorus- and nitrogen-containing catalyst (D) for the crosslinking of silane groups, and d) at least one catalyst (Z) for the reaction of the hydroxyl groups with the isocyanate groups,
which comprises the catalyst (Z) being selected from the group of zinc and bismuth carboxylates, of aluminum, zirconium, titanium and/or boron chelates, of inorganic, tin-containing catalysts, and of mixtures thereof.

The present invention further provides the coatings obtainable by this method and also the use thereof.

The present invention relates to a method for producing a multicoat paint system on a plastics substrate, in which a basecoat film or a plurality of directly successive basecoat films are produced on a plastics substrate, a clearcoat film is produced directly on the one basecoat film or on the topmost of the plurality of basecoat films, and subsequently the one or more basecoat films and the clearcoat film are jointly cured, this method being a method wherein at least one basecoat material used for the production of the basecoat films comprises at least one aqueous polyurethane-polyurea dispersion (PD) comprising polyurethane-polyurea particles, where the polyurethane-polyurea particles present in the dispersion (PD) comprise anionic groups and/or groups which can be converted into anionic groups, and have an average particle size of 40 to 2000 nm and also a gel fraction of at least 50%.

A method for producing a coated article includes electrostatically attaching, to a base article to be coated, a first powder coating material including first powder particles containing a thermosetting resin and a thermosetting agent; electrostatically attaching, to the base article having the first powder coating material electrostatically attached, a second powder coating material including second powder particles; and heating the first and second powder coating materials electrostatically attached to the base article, to form a coating film, wherein a volume percent D5c1 of the first powder particles having a particle size of 5 m or less in the first powder coating material electrostatically attached to the base article, and a volume percent D5o1 of the first powder particles having a particle size of 5 m or less in the first powder coating material to be ejected, satisfy: Formula: D5o10.8D5c1D5o11.2.