Metal effect pigment with additive

What is claimed is: 1. A metallic effect pigment, selected from the group consisting of aluminum, copper and gold bronze, wherein the metallic effect pigment is platelet-shaped, and having an average size/thickness ratio (form factor) of at least 5:1, with an additive, said pigment and additive together forming a metallic effect pigment composition, wherein the additive is applied at least partly on the metallic effect pigment such that 0.2% to 5% by weight of additive, based on the amount of metallic effect pigment and additive, is bound on a surface of the metallic effect pigment, and wherein the additive comprises as structural units at least one carboxylic acid having at least four carbon atoms, and also at least one polyglycol ether, wherein the carboxylic acid and the polyglycol ether are bonded covalently to one another, wherein the metallic effect pigment is a platelet-shaped metallic pigment having a metal core, wherein the metallic effect pigment composition is in the form of a metal effect pigment paste or a metal effect pigment powder, wherein the metallic effect pigment is obtained by dry grinding or wet grinding of atomized metal powder and wherein where the pigment is obtained by wet grinding, the wet grinding is carried out in organic solvents. 2. The metallic effect pigment composition of claim 1 , wherein the carboxylic acid and the polyglycol ether are covalently bonded to one another via an ester bond or an amide bond. 3. The metallic effect pigment composition of claim 1 , wherein the carboxylic acid is at least one polycarboxylic acid having two to eight carboxylic acid groups. 4. The metallic effect pigment composition of claim 3 , wherein the polycarboxylic acid is a dimerized, trimerized or tetramerized fatty acid or mixtures of these forms. 5. The metallic effect pigment composition of claim 3 , wherein the polycarboxylic acid contains 10 to 96 carbon atoms. 6. The metallic effect pigment composition of claim 5 , wherein the polycarboxylic acid contains 12 to 76 carbon atoms. 7. The metallic effect pigment composition of claim 1 , wherein the carboxylic acid is saturated or unsaturated. 8. The metallic effect pigment composition of claim 1 wherein the polyglycol ether comprises a group R 1 —X—(R 2 —O) y —(R 3 —O) z —(R 4 —O) k —, where the R 2 —O, R 3 —O, and R 4 —O polyether units may be arranged randomly, alternately or as block copolymers, X is O, S, (CO)O or NR x , where R x is H or an aliphatic radical having 1 to 20 carbon atoms, and R 1 is a linear or branched aliphatic radical or araliphatic or aromatic organic radical having 1 to 30 carbon atoms, and R 2 , R 3 and R 4 may be identical or, independently of one another, different and are each a linear or branched aliphatic organic radical or araliphatic or aromatic organic radical having 1 to 12 carbon atoms, and y, z, and k are natural numbers and independently of one another are 0 to 200, with the proviso that y+z+k=2 to 600. 9. The metallic effect pigment composition of claim 8 , wherein the ratio of the number of ether units y+z+k to the number of C atoms of the carboxylic acid or of the polycarboxylic acid and also, of the aliphatic or araliphatic radical R 1 , and of the aliphatic radical R x , amounts to values of 0.1 to 4.0. 10. The metallic effect pigment composition of claim 1 , wherein the carboxylic acid is partly or wholly esterified. 11. The metallic effect pigment composition of claim 10 , wherein the carboxylic acid is partly esterified and the additive has an acid number of 5 to 140 mg KOH/g additive. 12. The metallic effect pigment composition of claim 1 , wherein the carboxylic acid is present partly or wholly as carboxylic acid salt. 13. The metallic effect pigment composition of claim 1 , wherein the metallic effect pigments are in compacted form. 14. The metallic effect pigment composition of claim 13 , wherein the compacted form is selected from the group consisting of granules, pellets, tablets, briquettes, sausages and paste. 15. A method for producing the metallic effect pigment of claim 1 , wherein the method comprises the following steps: a) grinding metal particles to metallic effect pigments in the presence of an additive which comprises as structural units at least one carboxylic acid having at least 4 carbon atoms, and also at least one polyglycol ether, wherein the carboxylic acid and the polyglycol ether are bonded covalently to one another, and grinding media and also, optionally, a liquid phase, b) separating the metallic effect pigments obtained in step a) and provided with the additive from the grinding media and optionally from the liquid phase, c) optionally compacting the metallic effect pigments separated in step b) and provided with the additive. 16. The method of claim 15 , wherein step a) is carried out in a ball mill in the presence of grinding media. 17. The method of claim 16 , wherein the grinding media is spherical grinding media. 18. The method of claim 15 , wherein the compacting is carried out by at least one of granulating, pelletizing, tableting, briquetting, filtering, pressing and extruding. 19. A coating composition comprising the metallic effect pigment composition of claim 1 . 20. The coating composition of claim 19 , wherein the coating composition is a printing ink. 21. The metallic effect pigment composition of claim 1 , having an average thickness h 50 in a range of 20 nm to 2 μm. 22. The metallic effect composition of claim 1 , having an average thickness h 50 in a range of 20 nm to 100 nm. 23. The metallic effect pigment composition of claim 1 , having an average size d 50 in the range of 3 to 100 μm. 24. The metallic effect pigment composition of claim 1 , having an average size/thickness ratio (form factor) of at least 50:1.