Methods for counteracting rebounding effects during solid state resistance welding of dissimilar materials

The invention claimed is: 1. A multi-segment device comprising: an elongate first portion comprising a first metallic material; an elongate second portion comprising a different metallic material, the first and second elongate portions being directly joined together end to end by a solid-state weld; and a heat affected zone surrounding an interface of the weld where the first and second portions are joined together, wherein the heat affected zone has an average thickness across the interface of the weld of less than about 0.20 mm, the heat affected zone toward a center of the weld having a first thickness across the interface of the weld that is less than a second thickness across the interface of the weld at a location towards a perimeter of the weld. 2. The multi-segment device of claim 1 wherein the heat affected zone has an average thickness of less than about 0.18 mm. 3. The multi-segment device of claim 1 wherein the heat affected zone has an average thickness from about 0.15 mm to about 0.18 mm. 4. The multi-segment device of claim 1 wherein one portion comprises a nickel-titanium alloy and the other portion comprises stainless steel. 5. The multi-segment device of claim 1 wherein one portion comprises a nickel-titanium alloy. 6. The multi-segment device of claim 1 wherein one portion comprises stainless steel. 7. The multi-segment device of claim 1 wherein one portion comprises a nickel-titanium alloy and the other portion comprises stainless steel or a cobalt-chromium alloy. 8. The multi-segment device of claim 1 wherein the device exhibits a minimum strength value of at least 2.9 psi. 9. The multi-segment device of claim 1 , wherein the device exhibits a mean strength value of at least 3.94 psi. 10. The multi-segment device of claim 1 , wherein the device exhibits a Cpk value with respect to strength that is greater than 0.94. 11. The multi-segment device of claim 10 , wherein the device exhibits a Cpk value with respect to strength that is at least about 1.74. 12. A multi-segment device as recited in claim 1 , wherein the device is formed by a method comprising: providing two initially separate members, which members comprise different metallic materials; aligning the separate members; applying a first force to the aligned members while delivering electrical current through the separate members to weld the separate members to one another; and applying a follow up force that is greater than the first force as deformation of the members occurs and a weld nugget forms between the members so as to produce a heat affected zone and a weld nugget, the weld nugget being thinner and of a larger transverse cross-sectional area than would be produced without application of the follow up force, wherein, the heat affected zone towards a center of a weld formed at the weld nugget has a first thickness across an interface of the weld that is less than a second thickness across the interface of the weld at a location towards a perimeter of the weld. 13. The multi-segment device of claim 12 wherein the devices produced according to the method have higher mean strength and/or Cpk values as compared to devices produced without application of follow up force. 14. The multi-segment device of claim 12 wherein the device exhibits a minimum strength value of at least 2.9 psi, which minimum strength value is greater than would be produced without application of the increased follow up axial force. 15. The multi-segment device of claim 12 wherein the weld nugget has a diameter that is at least about 10% greater than would be produced without application of the follow up force. 16. The multi-segment device of claim 12 wherein the weld nugget has a diameter that is about 15% greater to about 25% greater than would be produced without application of the follow up force. 17. The multi-segment device of claim 12 wherein the weld nugget has an average thickness that is from about 10% smaller to about 50% smaller than would be produced without application of the follow up force. 18. The multi-segment device of claim 12 wherein the weld nugget has an average thickness that is from about 15% smaller to about 35% smaller than would be produced without application of the follow up force. 19. The multi-segment device of claim 12 wherein the weld nugget has an average thickness that is from about 20% smaller to about 30% smaller than would be produced without application of the follow up force. 20. The multi-segment device of claim 1 wherein the multi-segment device is a multi-segment intravascular guide wire.