Method for bonding a tantalum structure to a cobalt-alloy substrate
First Claim
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1. A method for bonding a porous tantalum structure to a substrate, comprising:
- providing a substrate comprising cobalt or a cobalt-chromium alloy;
providing a preformed solid sheet consisting essentially of a metal or a metal alloy, said metal or metal alloy including at least one of hafnium, manganese, niobium, palladium, zirconium, titanium, or alloys or combinations thereof, said preformed solid sheet having a top surface and a bottom surface;
providing a porous tantalum structure;
applying heat and pressure to the substrate and the preformed solid sheet for a time sufficient to achieve solid-state diffusion between the substrate and the bottom surface of the preformed solid sheet; and
applying heat and pressure to the preformed solid sheet and the porous tantalum structure for a time sufficient to achieve solid-state diffusion between the top surface of the preformed solid sheet and the porous tantalum structure, wherein the preformed solid sheet of metal defines an interlayer between the substrate and the porous tantalum structure,wherein said applying heat and pressure to the substrate and the preformed solid sheet and said applying heat and pressure to the preformed solid sheet and the porous tantalum structure occur concurrently.
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Abstract
A method for bonding a porous tantalum structure to a substrate is provided. The method comprises providing a substrate comprising cobalt or a cobalt-chromium alloy; an interlayer consisting essentially of at least one of hafnium, manganese, niobium, palladium, zirconium, titanium, or alloys or combinations thereof; and a porous tantalum structure. Heat and pressure are applied to the substrate, the interlayer, and the porous tantalum structure to achieve solid-state diffusion between the substrate and the interlayer and between the interlayer and the porous tantalum structure.
317 Citations
19 Claims
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1. A method for bonding a porous tantalum structure to a substrate, comprising:
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providing a substrate comprising cobalt or a cobalt-chromium alloy; providing a preformed solid sheet consisting essentially of a metal or a metal alloy, said metal or metal alloy including at least one of hafnium, manganese, niobium, palladium, zirconium, titanium, or alloys or combinations thereof, said preformed solid sheet having a top surface and a bottom surface; providing a porous tantalum structure; applying heat and pressure to the substrate and the preformed solid sheet for a time sufficient to achieve solid-state diffusion between the substrate and the bottom surface of the preformed solid sheet; and applying heat and pressure to the preformed solid sheet and the porous tantalum structure for a time sufficient to achieve solid-state diffusion between the top surface of the preformed solid sheet and the porous tantalum structure, wherein the preformed solid sheet of metal defines an interlayer between the substrate and the porous tantalum structure, wherein said applying heat and pressure to the substrate and the preformed solid sheet and said applying heat and pressure to the preformed solid sheet and the porous tantalum structure occur concurrently. - View Dependent Claims (2, 11, 12, 13, 14, 15, 19)
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3. A method for bonding a porous tantalum structure to a substrate, comprising:
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providing a substrate comprising cobalt or a cobalt-chromium alloy; providing a porous tantalum structure; providing a preformed solid sheet having a top surface and a bottom surface, said preformed solid sheet consisting essentially of a metal or a metal alloy, said metal or metal alloy including at least one of hafnium, manganese, niobium, palladium, zirconium, titanium, or alloys or combinations thereof; forming an assembly which includes positioning the preformed solid sheet between the substrate and the porous tantalum structure such that the bottom surface of the preformed solid sheet contacts the substrate and the top surface of the preformed solid sheet contacts the porous tantalum structure; and applying heat and pressure to the assembly for a time sufficient to concurrently achieve solid-state diffusion between the substrate and the bottom surface of the preformed solid sheet and solid-state diffusion between the top surface of the preformed solid sheet and the porous tantalum structure. - View Dependent Claims (4, 5, 6, 7, 8, 9, 16, 18)
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10. A method for bonding a porous tantalum structure to a substrate, comprising:
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providing a substrate comprising cobalt or a cobalt-chromium alloy; providing a preformed solid sheet having a top surface, a bottom surface and a thickness of at least about 0.016 inches, said preformed solid sheet consisting essentially of a metal or a metal alloy, the metal or metal alloy including at least one of hafnium, manganese, niobium, palladium, zirconium, titanium, or alloys or combinations thereof; providing a porous tantalum structure; forming an assembly which includes positioning the preformed solid sheet as an interlayer between said substrate and said porous tantalum structure, wherein the bottom surface of the preformed solid sheet contacts the substrate and the top surface of the preformed solid sheet contacts the porous tantalum structure; applying a pressure of at least about 200 psi to the assembly; and heating the assembly to at least about 540°
C. for at least one hour to concurrently achieve solid-state diffusion between the substrate and the preformed solid sheet and between the preformed solid sheet and the porous tantalum structure. - View Dependent Claims (17)
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Specification