Process for producing multi-layer coatings in light metallic color shades

摘要

A process for producing multi-layer coatings in light metallic color shades and reducing UV transmission there-through comprising the successive steps of:
(1) applying a 10 to 30 μm thick base coat layer to a pre-coated substrate,(2) applying a clear coat layer onto the base coat layer, and(3) jointly curing the base coat and clear coat layers,

wherein the base coat layer is applied from an unmodified water-borne metallic base coat having a ratio by weight of pigment to resin solids of 0.3:1 to 0.45:1, wherein the pigment content consists of 90% to 100% by weight of at least one non-leafing aluminum pigment with a platelet thickness over 100 to 500 nm and 0 to 10% by weight of at least one pigment different from aluminum pigments, wherein the pigment(s) different from aluminum pigments are selected in such a way that the multi-layer coating obtained exhibits a brightness L* (according to CIEL*a*b*, DIN 6174), of at least 80 units.

主权项

1. A process for the production of multi-layer coatings in metallic color shades, comprising the successive steps:
(1) applying a 10 to 30 μm thick base coat layer to a substrate provided with an EDC (electrodeposition coating) primer, (2) applying a clear coat layer onto the base coat layer, (3) jointly curing the base coat and clear coat layers, wherein the base coat layer is applied in a first layer and in a second layer;
the first layer is a modified water-borne metallic base coat produced by mixing an unmodified water-borne metallic base coat with a polyisocyanate cross-linking agent component andthe second layer comprises the unmodified water-borne metallic base coat, wherein the unmodified water-borne metallic base coat is polyisocyanate free, has a solids content of 15 to 30 wt. % and has a ratio by weight of pigment content to resin solids content of 0.3:1 to 0.45:1,wherein the pigment content consists of 90% to 100% by weight of at least one non-leafing aluminum pigment and 0 to 10% by weight of at least one pigment different from aluminum pigments,wherein the non-leafing aluminum pigment(s) is defined as an aluminum pigment(s) that has a platelet thickness of over 100 to 500 nm and a mean particle size of 5 to 33 μm and that causes a brightness flop, wherein the non-leafing aluminum pigment(s) comprise a first non-leafing aluminum pigment, a second non-leafing aluminum pigment, and a third non-leafing aluminum pigment, wherein the first non-leafing aluminum pigment has a first platelet thickness of from about 300 to about 500 nm and a first mean particle size of about 19 μm, the second non-leafing aluminum pigment has a second platelet thickness of from about 300 to about 500 nm and a second mean particle size of about 16 μm, and the third non-leafing aluminum pigment has a third platelet thickness of from about 200 to about 300 nm and a third mean particle size of about 18 μm, and wherein all of the non-leafing aluminum pigment(s) are selected from the group consisting of non-leafing aluminum pigments passivated by chromating, non-leafing aluminum pigments coated with a silicon-oxygen network and combinations thereof,wherein the pigment(s) different from aluminum pigments are selected by nature and quantity in such a way that the multi-layer coating obtained on the conclusion of process step (3) exhibits a brightness L*(according to CIEL*a*b*, DIN 6174), measured at an illumination angle of 45 degrees to the perpendicular and an observation angle of 15 degrees to the specular, of at least 80 units and wherein at least 50% by weight of the non-leafing aluminum pigment(s) are selected from the group consisting of non-leafing aluminum pigments passivated by chromating, non-leafing aluminum pigments coated with a silicon-oxygen network and combinations thereof; whereby the base coat layer has a UV transmission of less than 0.1% in the wavelength range from 290 to 380 nm and of less than 0.5% in the wavelength range from 380 to 400 nm.