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Last Updated: April 25, 2024

Claims for Patent: 7,824,774


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Summary for Patent: 7,824,774
Title:Fine-grained metallic coatings having the coefficient of thermal expansion matched to the one of the substrate
Abstract: Fine-grained (average grain size 1 nm to 1,000 nm) metallic coatings optionally containing solid particulates dispersed therein are disclosed. The fine-grained metallic materials are significantly harder and stronger than conventional coatings of the same chemical composition due to Hall-Petch strengthening and have low linear coefficients of thermal expansion (CTEs). The invention provides means for matching the CTE of the fine-grained metallic coating to the one of the substrate by adjusting the composition of the alloy and/or by varying the chemistry and volume fraction of particulates embedded in the coating. The fine-grained metallic coatings are particularly suited for strong and lightweight articles, precision molds, sporting goods, automotive parts and components exposed to thermal cycling. The low CTEs and the ability to match the CTEs of the fine-grained metallic coatings with the CTEs of the substrate minimize dimensional changes during thermal cycling and prevent premature failure.
Inventor(s): Palumbo; Gino (Toronto, CA), McCrea; Jonathan (Toronto, CA), Tomantschger; Klaus (Mississauga, CA), Brooks; Iain (Toronto, CA), Jeong; Daehyun (Oakville, CA), Limoges; Dave (Etobicoke, CA), Panagiotopoulos; Konstantinos (Toronto, CA), Erb; Uwe (Toronto, CA)
Assignee: Integran Technologies, Inc. (Toronto, CA)
Application Number:12/575,542
Patent Claims:1. An article comprising (a) a permanent substrate which at room temperature has a coefficient of thermal expansion in the range between -5.0.times.10.sup.-6K.sup.-1 and 25.times.10.sup.-6K.sup.-1; (b) a fine grained metallic coating on the permanent substrate, having an average grain size between 2 and 1,000 nm, and a coefficient of thermal expansion in the range between -5.0.times.10.sup.-6K.sup.-1 and 25.times.10.sup.-6K.sup.-1; and (c) said article exhibiting no delamination and the displacement of the coating relative to the underlying substrate is less than 2% after said article has been exposed to one temperature cycle consisting of exposure to liquid nitrogen for one minute followed by exposure to 90.degree. C. hot water for one minute, or one temperature cycle according to ASTM B553-71 service condition 1, 2, 3 or 4.

2. An article according to claim 1 wherein said fine-grained metallic coating is selected from the group of: (i) A pure metal selected from the group consisting of Al, Cu, Co, Ni, Fe, Mo, Pt, Ti and Zr, (ii) an alloy containing at least two elements selected from the group consisting of Al, Cu, Co, Ni, Fe, Mo, Pt, Ti and Zr; (iii) pure metals or an alloy comprising at least one element selected from the group consisting of Al, Cu, Co, Ni, Fe, Mo, Pt, Ti and Zr, further containing at least one element selected from the group consisting of Ag, Au, B, C, Cr, Mo, Mn, P, S, Si, Pb, Pd, Rh, Ru, Sn, V, W, and Zn; (iv) any of (i), (ii) or (iii) where said metallic coating also contains particulate additions in the volume fraction between 0 and 95% by volume.

3. An article according to claim 2 wherein said metallic coating comprises Co.

4. An article according to claim 3 wherein said metallic coating comprising Co also contains at least one element selected from the group consisting of Ni, Fe, Mo, W, Zn, P, B, and C.

5. An article according to claim 3 wherein said metallic coating comprises Co and P.

6. An article according to claim 2 wherein said metallic coating comprises Fe alloyed with Co and/or Ni, having a minimum Fe content of 5% and a minimum content of Ni and/or Co together of 2.5%.

7. An article according to claim 2 wherein said metallic coating comprises Ni.

8. An article according to claim 7 wherein said metallic coating comprising Ni contains at least one more element selected from the group consisting of Co, Fe, Mo, W, Zn, P, B and C.

9. An article according to claim 7 wherein said metallic coating comprises Ni and P.

10. An article according to claim 7 wherein said metallic coating comprises Ni and W.

11. An article according to claim 1 containing a permanent substrate selected from the group consisting of metals, metal alloys, glass, ceramics, filled polymeric materials, composites, and carbon based materials selected from the group consisting of graphite, graphite fibers and carbon nanotubes.

12. An article according to claim 1 wherein said metallic coating is deposited by electrodeposition, physical vapor deposition (PVD), chemical vapor deposition (CVD) and cold spraying techniques including kinetic metallization.

13. An article according to claim 1 wherein said metallic coating has a thickness ranging from 25 microns to 50 mm.

14. An article according to claim 1 wherein said metallic coating has a hardness ranging from 200 to 2,000 VHN and a yield strength of at least 300 MPa.

15. An article according to claim 1 wherein said metallic coating has a ductility ranging from 1 to 20%.

16. An article according to claim 1 wherein said metallic coating has a resilience ranging from 0.25 to 25 MPa.

17. An article according to claim 1 containing at least one intermediate conductive layer between said substrate and said metallic coating.

18. An article according to claim 17 wherein the intermediate conductive layer comprising a metallic layer comprises at least one element selected from the group consisting of Ag, Ni, and Cu and any two or three of these, and where the intermediate conductive layer is deposited by electroless deposition, sputtering, thermal spraying, chemical vapor deposition, physical vapor deposition or any two or more of these.

19. An article according to claim 17 wherein the intermediate conductive layer comprises polymeric material with conductive particulates therein.

20. An article according to claim 1 which is a component or part of an automotive, aerospace, sporting equipment, manufacturing or industry application.

21. An article according to according to claim 1 wherein said metallic coating extends over at least part of an inner or outer surface of said substrate or of a multi-layer laminate.

22. An article according to claim 1 having a metallic coating with a hardness of greater than 200 VHN and a ratio of thickness to grain size greater than 1,000.

23. An article according to claim 1 wherein said metallic coating represents from 5% to 95% of the total weight of the article.

24. An article according to claim 1, wherein said metallic coating comprises at least one element selected from the group consisting of Ni, Co and Fe, and said substrate comprises a metallic material selected from the group consisting of Al, Cu, Co, Ni, Fe, Mo, Pt, Ti and W, with optional alloying additions of Ag, Au, B, Cr, P, Pb, Pd, Rh, Ru, Sn, Zn, and C.

25. An article of claim 1, wherein said substrate is constituted of steel.

26. An article according to claim 25, wherein said metallic coating comprises at least one element selected from the group consisting of Ni, Co, Fe, Mo, W, Zn, P, B and C.

27. An article according to claim 25 which contains at least one intermediate conductive layer between said metallic coating and a steel substrate.

28. An article according to any one of claims 1, 23, 24, 25, 26 and 27 which is selected from the group consisting of a golf club shaft, a golf club face plate, a golf club head, an arrow shaft, a cartridge casing, a baseball bat, a softball bat, a fishing rod, a ski pole, a hiking pole, a mold, a mold component, a tooling part, an automotive part, an aerospace part and a bicycle part.

29. An article according to claim 1 wherein said metallic coating comprises at least one element selected from the group consisting of Ni, Co and Fe, and wherein said substrate comprises at least one material selected from the group consisting of Al, Fe, steel, carbon, graphite, glass and ceramics.

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Preferred Citation:

Friedman, Yali. "DrugPatentWatch" DrugPatentWatch, thinkBiotech, 2024, www.DrugPatentWatch.com.
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