Frame rail for a vehicle

What is claimed is: 1. A frame rail for a vehicle, comprising: a pair of elongated structural members, each one of said pair of elongated structural members having flanges protruding from lateral edges thereof, said flanges of one of said pair of elongated structural members extending in a direction toward the flanges of the other one of said pair of elongated structural members; and, first and second web panels interconnecting the pair of elongated structural members so as to form a box beam structure, at least a major portion of each one of the first and second metallic web panels having a material thickness that is substantially less than a material thickness of at least a major portion of each one of the pair of elongated structural members. 2. The frame rail for a vehicle according to claim 1 , wherein each one of the first and second web panels is substantially planar. 3. The frame rail for a vehicle according to claim 1 , wherein the first web panel is attached to the flanges of the pair of elongated structural members on a first side of the box beam structure via peripheral regions of the first web panel, and wherein the second web panel is attached to the flanges of the pair of elongated structural members on a second side of the box beam structure via peripheral regions of the second web panel, such that the first web panel is spaced apart from and substantially parallel to the second web panel. 4. The frame rail for a vehicle according to claim 1 , wherein the first and second web panels are welded to the flanges of the pair of elongated structural members. 5. The frame rail for a vehicle according to claim 1 , wherein the first and second web panels are mechanically fastened to the flanges of the pair of elongated structural members. 6. The frame rail for a vehicle according to claim 1 , wherein the first and second web panels are secured to the flanges of the pair of elongated structural members using an adhesive. 7. The frame rail for a vehicle according to claim 1 , wherein one elongated structural member of said pair of elongated structural members comprises two structural member portions, each structural member portion having one of said flanges protruding from an outer lateral edge thereof and having an inner lateral edge, wherein the inner lateral edges of the two elongated structural member portions are disposed in a side-by-side arrangement and wherein said two structural member portions are butt-welded together along said inner lateral edges thereof. 8. The frame rail for a vehicle according to claim 1 , wherein the first web panel is butt-welded along opposite edges thereof to the flanges of the pair of elongated structural members on a first side of the box beam structure, and wherein the second web panel is butt-welded along opposite edges thereof to the flanges of the pair of elongated structural members on a second side of the box beam structure, such that the first web panel is spaced apart from and substantially parallel to the second web panel. 9. The frame rail for a vehicle according to claim 1 , wherein the box beam structure is formed along substantially the entire length of the frame rail. 10. The frame rail for a vehicle according to claim 1 , wherein the height of the box beam structure is at least double the width of the box beam structure. 11. The frame rail for a vehicle according to claim 1 , wherein said elongated structural members are made from one of steel and aluminum. 12. The frame rail for a vehicle according to claim 1 , wherein said first and second web panels are made from one of steel and aluminum. 13. A frame rail for a vehicle, comprising: a first elongated structural member having a first width defined between opposite edges thereof, and having first lateral surfaces along each of said opposite edges, said first lateral surfaces extending along at least a portion of a length of the first elongated structural member; a second elongated structural member having a second width defined between opposite edges thereof, and having second lateral surfaces along each of said opposite edges, said second lateral surfaces extending along at least a portion of a length of the second elongated structural member; and, first and second metallic web panels interconnecting the first and second elongated structural members so as to form a box beam structure, each one of the first and second metallic web panels being substantially planar, wherein a material thickness of at least a major portion of each one of the first and second metallic web panels is substantially less than a material thickness of at least a major portion of each one of the first and second elongated structural members. 14. The frame rail for a vehicle according to claim 1 , wherein said first and second web panels are made from a composite material. 15. A method of making a frame rail for a vehicle, comprising: providing a blank, the blank comprising a plurality of joined together sections, some of the plurality of joined together sections having a material thickness extending over at least a major portion thereof that is less than a material thickness extending over at least a major portion of others of the plurality of joined together sections, a first section being disposed along a first lateral edge of the blank and having a same material thickness as a second section that is disposed along a second lateral edge of the blank; shaping the blank such that an edge of the first section is aligned with and adjacent to an edge of the second section, the edge of the first section and the edge of the second section extending along a length direction; and, fixedly joining the edge of the first section to the edge of the second section so as to form a frame rail with a closed profile in a cross section taken in a plane that is transverse to the length direction. 16. The method according to claim 15 , wherein adjacent sections of the plurality of joined together sections are joined together via a butt weld. 17. The method according to claim 15 , wherein fixedly joining comprises butt-welding the edge of the first section to the edge of the second section, and wherein the first section and the second section cooperate, when butt-welded together, to form a first elongated structural member extending along the length direction. 18. The method according to claim 17 , wherein shaping comprises bending the blank such that a central section of the plurality of joined together sections forms a second elongated structural member disposed opposite the first elongated structural member, a first intermediate section disposed between the first section and the central section forms a first sidewall, and a second intermediate section disposed between the second section and the central section forms a second sidewall. 19. The method according to claim 18 , wherein a material thickness of at least a major portion of each one of the first and second intermediate sections is substantially less than a material thickness of at least a major portion of the first, second and central sections. 20. A blank for use in making a frame rail for a vehicle, the blank comprising: a first elongated metallic section having a width and a length, the first elongated metallic section having a first material thickness extending over at least a major portion thereof; a second and a third elongated metallic section each having a length substantially the same as the first elongated metallic section, the second and the third elongated metallic sections each having a