초록 ▼

A process for treating nitinol so that desired mechanical properties are achieved. In one embodiment, the process comprises the steps of exposing the nitinol to a primary annealing temperature within the range of approximately 475° C. to 525° C. for a first time period, and thereafter exposing the n

A process for treating nitinol so that desired mechanical properties are achieved. In one embodiment, the process comprises the steps of exposing the nitinol to a primary annealing temperature within the range of approximately 475° C. to 525° C. for a first time period, and thereafter exposing the nitinol to a secondary annealing temperature within the range of approximately 550° C. to 800° C. for a second time period. The invention also includes nitinol articles made by the process of the invention.

대표청구항 ▼

1. An article comprising nitinol, wherein said nitinol comrises approximately 44 to 60 weight percent nickel with the blance being titanium, wherein at least a portion of said nitinol has been subjected to processing steps including the steps of exposing said nitinol to a temperature of approxima

1. An article comprising nitinol, wherein said nitinol comrises approximately 44 to 60 weight percent nickel with the blance being titanium, wherein at least a portion of said nitinol has been subjected to processing steps including the steps of exposing said nitinol to a temperature of approximately 475° C. to 525° C. for a time period of approximately 10 minutes; and exposing said nitinol to a temperature within the range of approximately 550° C. to 800° C. for a time period within the range of approximately 1 to 10 minutes; and wherein the processing steps result in the nitinol article having an elongation prior to failure in excess of approximately 50% from approximately room temperature to approximately body temperature. 2. The article of claim 1, wherein said nitinol comprises approximately 55 to 56 weight percent nickel. 3. The article of claim 1, wherein the Aftemperature of said nitinol is less than approximately 38° C. 4. The article of claim 1 wherein said article is a stent. 5. The nitinol article of claim 4, wherein the stent is an expandable stent having a generally tubular structure. 6. The article of claim 1, wherein said article is in the form of a wire. 7. The nitinol article of claim 1, wherein said article has an elongation prior to failure in excess of approximately 70%. 8. The nitinol article of claim 1, wherein said article has an elongation prior to failure in excess of approximately 60%. 9. The nitinol article of claim 1, wherein said article has an elongation prior to failure in excess of approximately 80%. 10. The nitinol article of claim 1, wherein said article has an elongation prior to failure in excess of approximately 90%. 11. The nitinol article of claim 1, wherein said article has an elongation prior to failure in excess of approximately 100%. 12. The nitinol article of claim 1, wherein the processing steps are completed in less than approximately 20 minutes. 13. An article comprising nitinol, wherein said nitinol comprises approximately 44 to 60 weight percent nickel with the balance being titanium, wherein at least a portion of said nitinol has been subjected to processing steps including the steps of exposing said nitinol to a first temperature of approximately 475° C. to 525° C. for a first time period; and exposing said nitinol to a second temperature within the range of approximately 550° C. to 800° C. for a second time period; wherein said first and second time periods are sufficient to ensure that substantially the entire portion of the nitinol reaches the first and second temperature respectively and are held at said temperatures sufficiently long to have an effect on mechanical properties of the nitinol article; and wherein the processing steps result in the nitinol article having an elongation prior to failure in excess of approximately 50% from approximately room temperature to approximately body temperature. 14. An article comprising nitinol, wherein said nitinol comprises approximately 44 to 60 weight percent nickel with the balance being titanium, wherein at least a portion of said nitinol has been subjected to processing steps including the steps of exposing said nitinol to a first temperature of approximately 475° C. to 525° C. for a first time period; and exposing said nitinol to a second temperature within the range of approximately 550° C. to 800° C. for a second time period; wherein said first and second time periods are sufficient to ensure that substantially the entire portion of the nitinol reaches the first and second temperature respectively and are held at said temperatures sufficiently long to have an effect on mechanical properties of the nitinol article; and wherein the processing steps result in the nitinol article having an elongation prior to failure in excess of approximately 70% at approximately body temperature.