Method for imparting improved fatigue strength to wire made of shape memory alloys, and medical devices made from such wire

What is claimed is: 1 . A medical device comprising a wire made of a nickel-titanium shape memory material, said wire having a fatigue endurance such that the wire survives 10 9 cycles at a 2.2% peak-to-peak strain amplitude. 2 . The medical device of claim 1 , said nickel-titanium shape memory material having a plurality of defects, said wire substantially comprised of said nickel-titanium shape memory material in a primary phase and including secondary phase portions of said nickel-titanium shape memory material comprising a secondary phase at localized regions disposed proximate respective said defects, with at least some of said secondary phase portions separated by said primary phase, said primary phase is an austenite phase, and said secondary phase portions comprise a martensite phase. 3 . The medical device of claim 2 , wherein said secondary phase portions together comprise less than 15% of the nickel-titanium shape memory material, by volume. 4 . The medical device of claim 1 , wherein said wire is selected from the group consisting of wire having a circular cross-section, wire having a non-circular cross-section, cable, coil, and tubing. 5 . The medical device of claim 1 , wherein said wire has a circular cross-section. 6 . The medical device of claim 1 , wherein said wire has a non-circular cross-section. 7 . The medical device of claim 1 , wherein said wire comprises tubing. 8 . The medical device of claim 1 , wherein said wire has an isothermally non-recoverable strain of less than 1%. 9 . The medical device of claim 1 , wherein said wire has an isothermally non-recoverable strain of less than 0.35%. 10 . The medical device of claim 1 , wherein said wire has an isothermally non-recoverable strain of less than 0.25%. 11 . The medical device of claim 1 , wherein said wire has an isothermally non-recoverable strain of less than 0.20%. 12 . A medical device comprising a wire made of a nickel-titanium shape memory material, said wire having a fatigue endurance such that the wire survives 10 6 cycles at a 1.90% peak-to-peak strain amplitude, wherein said wire has a residual strain of less than 0.25% after being subjected to engineering strain of at least 9.5%. 13 . The medical device of claim 12 , said nickel-titanium shape memory material having a plurality of defects, said wire substantially comprised of said nickel-titanium shape memory material in a primary phase and including secondary phase portions of said nickel-titanium shape memory material comprising a secondary phase at localized regions disposed proximate respective said defects, with at least some of said secondary phase portions separated by said primary phase, said primary phase is an austenite phase, and said secondary phase portions comprise a martensite phase. 14 . The medical device of claim 13 , wherein said secondary phase portions together comprise less than 15% of the nickel-titanium shape memory material, by volume. 15 . The medical device of claim 12 , wherein said wire is selected from the group consisting of wire having a circular cross-section, wire having a non-circular cross-section, cable, coil, and tubing. 16 . The medical device of claim 12 , wherein said wire has a circular cross-section. 17 . The medical device of claim 12 , wherein said wire has a non-circular cross-section. 18 . The medical device of claim 12 , wherein said wire comprises tubing. 19 . The medical device of claim 12 , wherein said wire has an isothermally non-recoverable strain of less than 1%. 20 . The medical device of claim 12 , wherein said wire has an isothermally non-recoverable strain of less than 0.35%. 21 . The medical device of claim 12 , wherein said wire has an isothermally non-recoverable strain of less than 0.25%. 22 . The medical device of claim 12 , wherein said wire has an isothermally non-recoverable strain of less than 0.20%. 23 . A medical device comprising a wire product made of a nickel-titanium shape memory material, said nickel-titanium shape memory material having a plurality of defects, said wire product substantially comprised of said nickel-titanium shape memory material in a primary phase and including secondary phase portions of said nickel-titanium shape memory material comprising a secondary phase at localized regions disposed proximate respective said defects, with at least some of said secondary phase portions separated by said primary phase, and said wire product has a fatigue endurance such that the wire product survives 10 9 cycles at a 2.2% peak-to-peak strain amplitude. 24 . The medical device of claim 23 , wherein said wire product has a residual strain of less than 0.25% after being subjected to engineering strain of at least 9.5%. 25 . The medical device of claim 23 , wherein said wire product is selected from the group consisting of wire having a circular cross-section, wire having a non-circular cross-section, cable, coil, and tubing. 26 . The medical device of claim 23 , wherein said wire product has a circular cross-section. 27 . The medical device of claim 23 , wherein said wire product has a non-circular cross-section. 28 . The medical device of claim 23 , wherein said wire product comprises tubing. 29 . The medical device of claim 23 , wherein said wire product has an isothermally non-recoverable strain of less than 1%. 30 . The medical device of claim 23 , wherein said wire product has an isothermally non-recoverable strain of less than 0.35%. 31 . The medical device of claim 23 , wherein said wire product has an isothermally non-recoverable strain of less than 0.25%. 32 . The medical device of claim 23 , wherein said wire product has an isothermally non-recoverable strain of less than 0.20%. 33 . A medical device comprising a wire product made of a nickel-titanium shape memory material, said nickel-titanium shape memory material having a plurality of defects, said wire product substantially comprised of said nickel-titanium shape memory material in a primary phase and including secondary phase portions of said nickel-titanium shape memory material comprising a secondary phase at localized regions disposed proximate respective said defects, with at least some of said secondary phase portions separated by said primary phase, wherein said wire product has a residual strain of less than 0.25% after being subjected to engineering strain of at least 9.5%. 34 . The medical device of claim 33 , wherein said wire product has a fatigue endurance such that the wire product survives 10 9 cycles at a 2.2% peak-to-peak strain amplitude. 35 . The medical device of claim 33 , wherein said wire product is selected from the group consisting of wire having a circular cross-section, wire having a non-circular cross-section, cable, coil, and tubing. 36 . The medical device of claim 33 , wherein said wire product has a circular cross-section. 37 . The medical device of claim 33 , wherein said wire product has a non-circular cross-section. 38 . The medical device of claim 33 , wherein said wire product comprises tubing. 39 . The medical device of claim 33 , wherein said wire product has