Abstract: The present invention includes a method of making a metal injection molded article and the metal injection molded article. The method includes mixing metal powders and a binder to form a mixture. The metal powders include a bulk material and at least one radiopaque material. The mixture is injected into a mold and processed into a green part. The green part is debound to form a brown part. The brown part is sintered to create a completed article. The completed article includes a metal alloy that includes the bulk material and a dispersion of the at least one radiopaque material substantially independent of the metal alloy.

Abstract: The present invention is a method for measuring and calculating tensile elongation of ductile metals on small diameter specimens. The method includes marking a tensile specimen with a pattern of gage markings at predetermined intervals. The tensile specimen is pulled to failure and then fitted together at the fracture. Distances between corresponding markings straddling the fracture are measured extending progressively outward from the fracture. From the measurements, elongation as a function of gage length is determined. End point elongation values (i.e., elongation at zero or near zero and infinite or very long gage lengths) are also determined. Determined elongations are scaled to reflect the values that would have been generated on a standard 0.5 inch diameter specimen. Based on the scaled elongation as a function of gage length and the end point elongation values, a value of elongation can be determined that represents a material property for FEA modeling the plastic strain behavior of a device.

Abstract: An article having a nickel-titanium alloy and a homogeneous dispersion of discrete particles. The discrete particles are substantially free of nickel and titanium. A method of making the article includes melting a substantially equiatomic composition of nickel and titanium to form an alloy and dispersing a discrete particle in the alloy to form an ingot. The melting and dispersing are performed at a temperature above the alloying temperature of the composition and below the melting temperature of the discrete particle. The ingot is hot worked to form a processed ingot. The processed ingot is cold worked and annealed to form the article.

Abstract: An article made of a medical alloy having two or more alloying elements, and a uniform dispersion of discrete particles, which are substantially free of the two or more alloying elements. A method of making the article includes melting a composition having two or more alloying elements to form an alloy and dispersing a discrete particle in the alloy to form an ingot. The melting and dispersing are performed at a temperature above the alloying temperature of the composition and below the melting temperature of the discrete particle. The ingot is hot worked to form a processed ingot. The processed ingot is cold worked and annealed to form the article.