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 weld; a heat affected zone surrounding an interface of the elongate first portion and the elongate second portion, wherein the heat affected zone toward a center of the weld has 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; a shapeable distal end formed from at least a portion of the elongate second portion; and a coil disposed about a portion of the elongate second portion. 2. The multi-segment device of claim 1 , wherein the different metallic material comprises a pseudoelastic alloy comprising about 30 atomic percent to about 52 atomic percent titanium, with up to a balance of nickel. 3. The multi-segment device of claim 2 , wherein the different metallic material further comprises one or more other alloying elements, the one or more other alloying elements comprise alloying elements selected from iron, cobalt, vanadium, platinum, palladium, copper, and combinations thereof. 4. The multi-segment device of claim 3 , wherein the copper, vanadium, or combinations thereof are included in amounts of up to 10 atomic percent. 5. The multi-segment device of claim 3 , wherein the iron, cobalt, platinum, palladium, or combinations thereof are included in amounts of up to 3 atomic percent. 6. The multi-segment device of claim 1 wherein the elongate first portion comprises stainless steel or cobalt-chromium alloy. 7. 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 weld; a heat affected zone surrounding an interface of the elongate first portion and the elongate second portion, 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; and a shapeable distal end formed from at least a portion of the elongate second portion; and a coil disposed about a portion of the elongate second portion. 8. The multi-segment device of claim 7 , wherein the heat affected zone has an average thickness from about 0.15 mm to about 0.18 mm. 9. The multi-segment device of claim 1 , wherein the first and second elongate portions being directly joined together end to end by a solid-state weld with the different metallic material having a higher modulus of elasticity than the first metallic material. 10. The multi-segment device of claim 1 , wherein the second elongate portion includes a flattened, shapeable distal tip. 11. The multi-segment device of claim 10 , wherein the flattened, shapeable distal tip is configured to be permanently deformed. 12. The multi-segment device of claim 1 , wherein the coil is stretched in length from a first attachment location with the second elongate portion to an atraumatic distal end. 13. The multi-segment device of claim 12 , wherein the second elongate portion comprises a rounded tip proximal the atraumatic distal end, the rounded tip being configured to prevent passage of the second elongate portion between any spaces of the coil. 14. The multi-segment device of claim 13 , further comprising a shaping ribbon extending from a second attachment location of the second elongate portion to the atraumatic distal end. 15. The multi-segment device of claim 1 , wherein the device exhibits a mean strength value of at least 3.94 psi. 16. The multi-segment device of claim 1 , wherein the device exhibits a Cpk value with respect to strength that is greater than 0.94. 17. The multi-segment device of claim 1 , wherein the device exhibits a Cpk value with respect to strength that is at least about 1.74. 18. The multi-segment device of claim 1 , wherein the device exhibits a minimum strength value of at least 2.9 psi. 19. The multi-segment device of claim 1 , wherein the multi-segment device is a multi-segment intravascular guide wire. 20. 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 weld; a heat affected zone surrounding an interface of the elongate first portion and the elongate second portion, wherein the heat affected zone has an average thickness across the interface of the weld of less than about 0.20 mm; a shapeable distal end formed from at least a portion of the elongate second portion; and a coil disposed about a portion of the elongate second portion. 21. The multi-segment device of claim 7 , wherein the heat affected zone has an average thickness of less than about 0.18 mm.