Flash trap

What is claimed is: 1. A welded assembly, comprising: a first component including an opening arranged at a first end thereof, the opening defining a stepped profile and including a first weld joint surface and an inner surface; and a second component received within the opening and including a second weld joint surface and a flash trap formed in the second weld joint surface, wherein the second weld joint surface at least partially overlaps axially with the first weld joint surface, and wherein a weld joint region is arranged within a gap formed laterally between the first weld joint surface and the second weld joint surface, and wherein the flash trap forms a recess that extends laterally into the second weld joint surface and is arranged inwardly from the first end of the opening between the weld joint region and a lip of the second component. 2. The welded assembly of claim 1 , wherein the first weld joint surface extends into the opening from the first end to a junction between the first weld joint surface and the inner surface, and the inner surface extends into the opening from the junction between the first weld joint surface and the inner surface to a laterally inwardly extending stop surface. 3. The welded assembly of claim 2 , wherein the inner surface is disposed laterally inward relative to the first weld joint surface. 4. The welded assembly of claim 1 , wherein the flash trap defines a generally U-shaped recess that extends continuously around a periphery of the second component. 5. The welded assembly of claim 1 , wherein the flash trap, the lip, and the inner surface define an enclosed pocket. 6. The welded assembly of claim 1 , wherein a diameter defined by the lip is less than a diameter defined by the second weld joint surface. 7. The welded assembly of claim 1 , wherein the lip is arranged inwardly from the first end of the opening relative to the flash trap. 8. The welded assembly of claim 1 , wherein the flash trap is arranged axially between the lip and the second weld joint surface. 9. A crossover tube assembly for an automobile cooling system; comprising: a crossover tube having an opening arranged at a first end thereof, wherein the opening includes a first weld joint surface extending inwardly into the opening from the first end; and a crossover tube cover disposed in the opening and including a second weld joint surface, wherein the second weld joint surface at least partially overlaps axially with the first weld joint surface, and wherein a weld joint region is arranged within a gap formed laterally between the first weld joint surface and the second weld joint surface, and wherein the second weld joint surface includes a depression extending laterally into the second weld joint surface and arranged inwardly from the first end of the opening relative to the weld joint region. 10. The crossover tube assembly of claim 9 , wherein the opening defines a stepped profile and includes an inner surface. 11. The crossover tube assembly of claim 10 , wherein the inner surface is disposed laterally inward relative to the first weld joint surface. 12. The crossover tube assembly of claim 11 , wherein the first weld joint surface extends into the opening from the first end to a junction between the first weld joint surface and the inner surface, and the inner surface extends into the opening from the junction between the first weld joint surface and the inner surface to a laterally inwardly extending stop surface. 13. The crossover tube assembly of claim 9 , wherein the depression defines generally U-shaped depression that extends continuously around a periphery of the crossover tube cover. 14. The crossover tube assembly of claim 9 , wherein the crossover tube cover includes a lip arranged inwardly from the first end of the opening relative to the depression. 15. The crossover tube assembly of claim 14 , wherein the depression, the lip, and the inner surface define an enclosed pocket. 16. The crossover tube assembly of claim 15 , wherein a diameter defined by the lip is less than a diameter defined by the second weld joint surface. 17. A crossover tube assembly for an automobile cooling system, comprising: a crossover tube including an opening arranged at a first end thereof, the opening defining a stepped profile and including a first weld joint surface and an inner surface; and a crossover tube cover received within the opening and including a second weld joint surface and a flash trap formed in the second weld joint surface, wherein the second weld joint surface at least partially overlaps axially with the first weld joint surface, and wherein a weld joint region is arranged within a gap formed laterally between the first weld joint surface and the second weld joint surface, and wherein the flash trap forms a depression that extends laterally into the second weld joint surface and is arranged inwardly from the first end of the opening relative to the weld joint region. 18. The crossover tube assembly of claim 17 , wherein the crossover tube cover includes a lip arranged inwardly from the first end of the opening relative to the flash trap. 19. The crossover tube assembly of claim 18 , wherein the flash trap, the lip, and the inner surface define an enclosed pocket. 20. The crossover tube assembly of claim 17 , wherein the flash trap defines generally U-shaped depression that extends continuously around a periphery of the crossover tube cover.