Claims
- 1. Method of forming a coating on a metallic substrate comprising employing said metallic substrate as a cathode in an aqueous electrolytic bath comprising 35-65 grams per liter chromium chloride, 9-15 grams per liter nickel chloride, and 4-8 grams per liter ferrous chloride, and a leveling agent in an amount effective to enhance brightness in said coating, and subjecting said bath to an electric current effective to deposit chromium, nickel and iron as a coating on said substrate while maintaining said metallic substrate in turbulent contact with said bath.
- 2. Method of claim 1 wherein said chromium in said bath is maintained substantially entirely in the trivalent state.
- 3. Method of claim 1 wherein said current is 50-500 amperes per square foot of surface on said substrate.
- 4. Method of claim 1 wherein said bath is maintained at a pH of 0.8 to 2.0.
- 5. Method of claim 1 wherein said leveling agent comprises a coumarin leveling agent.
- 6. Method of claim 1 wherein said bath includes a stress reliever.
- 7. Method of claim 1 wherein said metallic substrate comprises carbon steel.
- 8. Method of claim 7 wherein said carbon steel has a precoat comprising nickel.
- 9. Method of claim 7 conducted continuously, wherein said carbon steel is in the form of steel strip, said steel strip is passed continuously through said aqueous electrolytic bath.
- 10. Method of claim 9 wherein said chromium chloride, nickel chloride, and ferrous chloride are replenished continuously or intermittently to maintain said grams per liter.
- 11. Method of claim 9 including continuously or intermittently removing at least one breakdown product of said leveling agent and continuously or intermittently replenishing said leveling agent.
- 12. Method of claim 7 wherein said carbon steel is formed into an incipient article prior to employing it as the cathode in said bath.
- 13. Method of claim 1 wherein said coating comprises 12-30% chromium, 6-10% nickel, and 64-78% iron.
- 14. Method of claim 13 wherein said coating comprises 17-20% chromium, 7-9% nickel, and 71-76% iron.
- 15. Method of claim 1 followed by removing said metallic substrate from said bath and heat treating it whereby said metallic substrate has a corrosion resistance similar to that of stainless steel.
- 16. Method of claim 9 wherein said bath includes a stress reliever in an amount effective to inhibit the formation of microcracks in said coating, followed by forming a three-dimensional steel product from a portion of said steel strip, said three-dimensional steel product being substantially free of microcracks.
- 17. Method of claim 1 wherein the anode in said aqueous electrolytic bath comprises stainless steel and wherein at least a portion of said chromium, said nickel, and said iron deposited from said bath is replenished sacrificially from said stainless steel anode.
- 18. A product made by the method of claim 15.
- 19. Steel having a coating comprising 12-30% chromium, 6-10% nickel, and 64-78% iron, said coating being substantially free of microcracks, having a brightness similar to monolithic stainless steel, superior adherence as demonstrated in fold and drop tests, and a substantially consistent distribution of chromium, nickel and iron throughout said coating.
- 20. Steel of claim 19 wherein said coating comprises 16-22% chromium, 7-9% nickel, and 71-76% iron.
- 21. Steel of claim 19 wherein said coating is 1-100 micrometers thick.
- 22. Steel of claim 19 having an undercoat of nickel.
- 23. An article made of the steel of claim 19.
- 24. An aqueous solution useful as an electrolytic bath for depositing a coating of stainless steel on a metallic substrate comprising 35-65 grams per liter chromium chloride, 9-15 grams per liter nickel chloride, and 4-8 grams per liter ferrous chloride, said solution having a pH of 0.8 to 2.0 and including a small amount of hydrofluosilicic acid and a small amount of a coumarin leveling agent.
- 25. An aqueous solution of claim 24 including at least one of (a) ammonium chloride in an amount up to 100 g/L, (b) potassium chloride in an amount up to 60 g/L, and (c) citric acid in an amount up to 100 g/L.
- 26. Method of forming a stainless steel coating on a steel substrate, said stainless steel coating comprising chromium, nickel and iron within the range of weight ratios chromium 6-15:nickel 3-5:iron 32-39 comprising electrolytically depositing said metals from an aqueous electrolyte containing chromium, nickel and iron dissolved in weight ratios of chromium 53.4-79.12:nickel 12.9-31.8:iron 6.4-19.9.
- 27. Method of claim 26 wherein said aqueous electrolyte also includes a coumarin leveling agent in an amount effective to improve brightness of said coating.
- 28. Method of claim 27 which is continuous and wherein a breakdown product of said coumarin leveling agent is continuously or intermittently removed from said aqueous electrolyte.
- 29. Method of claim 26 wherein said chromium, said nickel, and said iron are present in said aqueous electrolyte substantially entirely in the form of chlorides.
- 30. Method of claim 26 wherein said chromium in said aqueous electrolyte is substantially entirely trivalent.
RELATED APPLICATION
[0001] This application incorporates in full and claims the full benefit of provisional application No. 60/366,194 filed Mar. 21, 2002.
Provisional Applications (1)
|
Number |
Date |
Country |
|
60366194 |
Mar 2002 |
US |