Door beam

What is claimed is: 1. A door beam, comprising: an aluminum alloy extrusion extended in a longitudinal direction and having a pair of webs and a pair of flanges to be positioned on an inside and an outside in a vehicle width direction, wherein the pair of webs connect the pair of flanges at joint portions of each of the pair of webs such that the pair of webs and the pair of flanges form a closed cross section in a direction perpendicular to the longitudinal direction, and each of the pair of webs has a welded portion in a vicinity of a neutral axis passing through a centroid of the closed cross section and parallel to the pair of flanges. 2. The door beam according to claim 1 , wherein the aluminum alloy extrusion comprises a 7000 series aluminum alloy extrusion. 3. The door beam according to claim 2 , wherein each of the pair of webs has the welded portion on the neutral axis. 4. The door beam according to claim 2 , wherein the aluminum alloy extrusion has an intermediate rib connecting the pair of flanges and positioned between the pair of webs. 5. The door beam according to claim 4 , wherein the intermediate rib has a welded portion in the vicinity of the neutral axis. 6. The door beam according to claim 2 , wherein the aluminum alloy extrusion is bent along the longitudinal direction such that the aluminum alloy extrusion is curved in a convex form toward an outer side in the vehicle width direction. 7. The door beam according to claim 2 , wherein the aluminum alloy extrusion includes an end portion in the longitudinal direction where a distance between the pair of the flanges is narrowed. 8. The door beam according to claim 1 , wherein each of the pair of webs has the welded portion on the neutral axis. 9. The door beam according to claim 8 , wherein the aluminum alloy extrusion has an intermediate rib connecting the pair of flanges and positioned between the pair of webs. 10. The door beam according to claim 9 , wherein the intermediate rib has a welded portion on the neutral axis. 11. The door beam according to claim 8 , wherein the aluminum alloy extrusion is bent along the longitudinal direction such that the aluminum alloy extrusion is curved in a convex form toward an outer side in the vehicle width direction. 12. The door beam according to claim 8 , wherein the aluminum alloy extrusion includes an end portion in the longitudinal direction where a distance between the pair of the flanges is narrowed. 13. The door beam according to claim 8 , wherein each of the pair of the flanges has a thickness greater than a thickness of each of the webs. 14. The door beam according to claim 1 , wherein the aluminum alloy extrusion has an intermediate rib connecting the pair of flanges and positioned between the pair of webs. 15. The door beam according to claim 14 , wherein the intermediate rib has a welded portion in the vicinity of the neutral axis. 16. The door beam according to claim 1 , wherein the aluminum alloy extrusion is bent along the longitudinal direction such that the aluminum alloy extrusion is curved in a convex form toward an outer side in the vehicle width direction. 17. The door beam according to claim 1 , wherein the aluminum alloy extrusion includes an end portion in the longitudinal direction where a distance between the pair of the flanges is narrowed. 18. The door beam according to claim 1 , wherein each of the pair of the flanges has a thickness greater than a thickness of each of the webs. 19. The door beam of claim 1 , wherein at least one of the pair of flanges includes protruding flanges protruding outward from the joint portions, respectively. 20. A method of producing the door beam of claim 1 , comprising: pressing an aluminum billet into a porthole die having a plurality of portholes such that pressed aluminum billet is divided by the portholes; and welding divided aluminum billets to one another such that the aluminum alloy extrusion is formed.