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A method and apparatus for coating a substrate (4) with a metal coating by vaporizing the metal in an enclosure (1) containing a selected gas and the substrate. The vaporized metal is deposited on the surface of the substrate either in a solid or molten form depending on the temperature of the subst

A method and apparatus for coating a substrate (4) with a metal coating by vaporizing the metal in an enclosure (1) containing a selected gas and the substrate. The vaporized metal is deposited on the surface of the substrate either in a solid or molten form depending on the temperature of the substrate relative to the melting point of the metal being deposited. Alloying of the substrate and coating metal are possible with various postcoating heat treatments.

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What is claimed is: 1. A method for coating a substrate with a metal coating, comprising passing continuous strip steel through an enclosed elongated furnace having strip entry and strip entry seals, providing a gas atmosphere in said furnace, introducing a vapor phase of a metal to be coated on th

What is claimed is: 1. A method for coating a substrate with a metal coating, comprising passing continuous strip steel through an enclosed elongated furnace having strip entry and strip entry seals, providing a gas atmosphere in said furnace, introducing a vapor phase of a metal to be coated on the strip steel by heating a source of metal for coating, which is in communication with said furnace, to the boiling point of the metal source, forcefully directing said combined gas atmosphere and said metal vapor toward said continuous steel strip, and maintaining said gas atmosphere, metal vapor, and surfaces of said furnace exposed to said gas atmosphere and metal vapor at a temperature greater or equal to the metal source, wherein said continuous strip steel is passed through said furnace at a rate and at an entry temperature such that the continuous strip steel surface temperature is greater than the melting point of the metal for coating and less than the boiling point of the metal for coating, and said metal vapor condenses on the steel to form a molten metal coating. 2. The method for coating a substrate with a metal coating according to claim 1, wherein said metal for coating is selected from the group consisting of zinc, tin, aluminum, chromium, and alloys of those metals. 3. The method for coating a substrate with a metal coating according to claim 1, wherein said gas is selected from the group consisting of nitrogen, helium, hydrogen, and argon. 4. The method for coating a substrate with a metal coating according to claim 1, wherein said furnace atmosphere and surfaces of said furnace which are exposed to said furnace atmosphere are at a temperature greater or equal to said boiling point of said source of metal for coating. 5. The method for coating a substrate with a metal coating according to claim 1, further including providing nozzles for use in providing said gas and utilizing said nozzles to forcefully direct said combination of gas atmosphere and vapor of the metal for coating toward said continuous strip steel. 6. The method for coating a substrate with a metal coating according to claim 1, further comprising, following completion of said coating steps, cooling said source of the metal for coating to below the metal's melting point, then holding the temperature of said source of the metal for coating below the metal's melting point until said source of the coating metal solidifies and said metal vapor in the closed furnace condenses on the solidified source of the metal for coating, then cooling the furnace and enclosed atmosphere to a temperature below the melting point of the source of metal for coating. 7. The method for coating a substrate with a metal coating according to claim 1, further comprising, holding said continuous strip steel coated with metal at a selected temperature for a selected period of time so as to alloy at least a portion of said metal coating with the material of the continuous strip steel. 8. The method for coating a substrate with a metal coating according to claim 7, wherein said holding step is carried out in said furnace. 9. The method for coating a substrate with a metal coating according to claim 1, wherein said coating metal is zinc, said zinc source is heated to 917째 C. and said substrate temperature is greater than 420째 C. and less than 917째 C. 10. The method for coating a substrate with a metal coating according to claim 1, wherein said coating metal is aluminum, said aluminum source is heated to 2467째 C. and said substrate temperature is greater than 660째 C. and less than 2467째 C. 11. The method for coating a substrate with a metal coating according to claim 1, wherein said coating metal is chromium, said chromium source is heated to 2482째 C. and said substrate temperature is greater than 1890째 C. and less than 2482째 C. 12. The method for coating a substrate with a metal coating according to claim 1, wherein said coating metal is tin, said tin source is heated to 2270째 C. and said substrate temperature is greater than 232째 C. and less than 2270째 C. 13. A method for coating a substrate with a metal coating, comprising passing continuous strip steel through an enclosed elongated furnace having strip entry and strip exit seals, providing a gas atmosphere in said furnace, introducing a vapor phase of a metal to be coated on the strip steel by heating a source of the metal for coating, which is in communication with said furnace, to the boiling point of the metal, forcefully directing said combined gas atmosphere and metal vapor toward said continuous steel strip, and maintaining said gas atmosphere, metal vapor and surfaces of said furnace exposed to said gas atmosphere and metal vapor at a temperature greater or equal to the coating metal source temperature, wherein said continuous strip steel is passed through said furnace at a rate and at an entry temperature such that the continuous strip steel surface temperature is less than the melting point of the metal for coating and said metal vapor sublimates on the steel to form a solid metal coating. 14. The method for coating a substrate with a metal coating according to claim 13, wherein said coating metal is zinc, said zinc source is heated to 917째 C. and said substrate temperature is less than 420째 C. 15. The method for coating a substrate with a metal coating according to claim 13, wherein said coating metal is aluminum, said aluminum source is heated to 2467째 C. and said substrate temperature is less than 660째 C. 16. The method for coating a substrate with a metal coating according to claim 13, wherein said coating metal is chromium, said chromium source is heated to 2482째 C. and said substrate temperature is less than 1890째 C. 17. The method for coating a substrate with a metal coating according to claim 13, wherein said coating metal is tin, said tin source is heated to 2270째 C. and said substrate temperature is less than 232째 C. 18. The method for coating a substrate with a metal coating according to claim 13, wherein said metal for coating is selected from the group consisting of zinc, tin, aluminum, chromium, and alloys of those metals. 19. The method for coating a substrate with a metal coating according to claim 13, wherein said gas is selected from the group consisting of nitrogen, helium, hydrogen, and argon. 20. The method for coating a substrate with a metal coating according to claim 13, wherein said furnace atmosphere and surfaces of said furnace which are exposed to said furnace atmosphere are at a temperature greater or equal to said boiling point of said source of metal for coating. 21. The method for coating a substrate with a metal coating according to claim 13, further including providing nozzles for use in providing said gas and utilizing said nozzles to forcefully direct said combination of gas atmosphere and vapor of the metal for coating toward said continuous strip steel. 22. The method for coating a substrate with a metal coating according to claim 13, further comprising, following completion of said coating steps, cooling said source of the metal for coating to below the metal's melting point, then holding the temperature of said source of the metal for coating below the metal's melting point until said source of the coating metal solidifies and said metal vapor in the closed furnace condenses on the solidified source of the metal for coating, then cooling the furnace and enclosed atmosphere to a temperature below the melting point of the source of metal for coating. 23. The method for coating a substrate with a metal coating according to claim 13, further comprising, holding said substrate coated with metal at a selected temperature for a selected period of time so as to alloy at least a portion of said metal coating with the material of the continuous strip steel. 24. The method for coating a substrate with a metal coating according to claim 23, wherein said holding step is carried out in said furnace.