Process for the manufacturing of a steel strip for packaging and associated equipment

What is claimed is: 1. An apparatus in combination with a solution comprising: a transfer roller; a coating roller contacting the transfer roller, a surface of the coating roller having a plurality of hexagonally shaped cells with a line count being from 50 to 200 lines per centimeter and a volume being from 5·10 −6 to 10·10 −6 m 3 per square meter of the coating roller surface; an aqueous passivation solution; and a tank containing the aqueous passivation solution, the tank providing the aqueous passivation solution to the coating roller. 2. The apparatus in combination with a solution according to claim 1 , wherein the transfer roller is made of an elastomer. 3. The apparatus in combination with a solution according to claim 1 , wherein the coating roller includes a laser etched ceramic coating. 4. The apparatus in combination with a solution according to claim 1 , wherein the tank includes a wiping device having at least one blade. 5. The apparatus in combination with a solution according to claim 1 , further comprising at least one magnetic radiation gauge allowing measurement of the thickness of the passivation layer before drying. 6. The apparatus in combination with a solution according to claim 1 , wherein the transfer roller directly contacts the coating roller. 7. The apparatus in combination with a solution according to claim 1 , further comprising a drying unit downstream of the transfer roller. 8. The apparatus in combination with a solution according to claim 1 , further comprising a strip, the transfer roller being located between the strip and the coating roller to transfer the aqueous passivation solution from the coating roller to the strip. 9. The apparatus in combination with a solution according to claim 8 , wherein the strip is made of steel. 10. The apparatus in combination with a solution according to claim 1 , wherein the coating roller rotates and dips into the aqueous passivation solution contained in the tank. 11. The apparatus in combination with a solution according to claim 1 , further comprising a second transfer roller; a second coating roller contacting the second transfer roller, and a second tank containing the aqueous passivation solution, the second tank providing the aqueous passivation solution to the second coating roller, the first and second transfer rollers forming a nip for a strip being coated with the aqueous passivation solution. 12. A steel strip coater comprising: a transfer roller for contact with a steel strip; a coating roller directly contacting the transfer roller, a surface of the coating roller having a plurality of hexagonally shaped cells with a line count being from 50 to 200 lines per centimeter and a volume being from 5·10 −6 to 10·10 −6 m 3 per square meter of the coating roller surface; and a tank for containing an aqueous passivation solution, the tank for providing the aqueous passivation solution to the coating roller. 13. The steel strip coater according to claim 12 , wherein the transfer roller is made of an elastomer. 14. The steel strip coater according to claim 12 , wherein the coating roller includes a laser etched ceramic coating. 15. The steel strip coater according to claim 12 , wherein the tank includes a wiping device having at least one blade. 16. The steel strip coater according to claim 12 , further comprising at least one magnetic radiation gauge allowing measurement of the thickness of the passivation layer before drying. 17. The steel strip coater according to claim 12 , further comprising a drying unit downstream of the transfer roller. 18. The steel strip coater according to claim 12 , further comprising the steel strip, the transfer roller being located between the steel strip and the coating roller. 19. The steel strip coater according to claim 12 , wherein the coating roller rotates and dips into the aqueous passivation solution contained in the tank. 20. The steel strip coater according to claim 12 , further comprising a second transfer roller; a second coating roller directly contacting the second transfer roller, and a second tank, the first and second transfer rollers forming a nip for the steel strip.