Prefabricated, prestressed bridge module

The disclosure claimed is: 1. A prefabricated, prestressed bridge-forming module comprising: one or more steel beams atop an inner supporting formwork element and a pair of outer supporting formwork elements in a direction transverse to the inner supporting formwork element and the pair of outer supporting formwork elements; two or more precast deck elements across and above a top flange of each of the one or more steel beams and including first and second precast deck elements disposed above each of the pair of outer supporting formwork elements creating a substantially continuous surface and exerting a downward compressive load on the one or more steel beams, the two or more precast deck elements having couplings that extend between the top flange of the one or more steel beams and the two or more precast deck elements; the inner supporting formwork element and the pair of outer supporting formwork elements supporting the one or more steel beams while bent into a cambered shape resulting in compressive stresses to a bottom flange of the one or more steel beams and tension stresses to the top flange of the one or more steel beams; and grout disposed on the one or more steel beams and at least between adjacent precast deck elements of the two or more precast deck elements, wherein the grout bonds the two or more precast deck elements together and, together with the downward compressive load exerted by the two or more precast deck elements on the one or more steel beams, maintains the cambered shape of the one or more steel beams. 2. The prefabricated, prestressed bridge-forming module of claim 1 , wherein the prefabricated, prestressed bridge-forming module is one of a plurality of prefabricated, prestressed bridge-forming modules arranged to form a surface of a bridge. 3. The prefabricated, prestressed bridge-forming module of claim 1 , further comprising: an overlay disposed atop the two or more precast deck elements. 4. The prefabricated, prestressed bridge-forming module of claim 3 , wherein the overlay forms a concrete surface bonded to the two or more precast deck elements. 5. The prefabricated, prestressed bridge-forming module of claim 1 , wherein at least one of the two or more precast deck elements includes concrete. 6. The prefabricated, prestressed bridge-forming module of claim 1 , wherein at least one of the one or more steel beams includes a roughened top surface and wherein at least one of the two or more precast deck elements includes a roughened bottom surface. 7. The prefabricated, prestressed bridge-forming module of claim 6 , wherein the roughened top surface and the roughened bottom surface provide shear force transfer from the at least one of the one or more steel beams to the at least one of the two or more precast deck elements when they are bonded with concrete. 8. The prefabricated, prestressed bridge-forming module of claim 1 , wherein the two or more precast deck elements include two or more panels. 9. The prefabricated, prestressed bridge module of claim 1 , wherein the couplings include shear connectors extending from the one or more steel beams. 10. The prefabricated, prestressed bridge module of claim 1 , wherein the couplings include Ultra High Performance Concrete. 11. The prefabricated, prestressed bridge module of claim 1 , wherein the two or more precast deck elements include a third precast deck element disposed above the inner supporting formwork element. 12. A prefabricated, prestressed bridge-forming module comprising: at least one steel beam bent into a cambered shape and having at least one top flange and disposed atop an inner supporting formwork element and a pair of opposing outer supporting formwork elements disposed proximate ends of the at least one steel beam in a direction transverse to the supporting formwork element; a plurality of panels including an inner panel and a pair of opposing outer panels disposed atop the at least one top flange of the at least one steel beam and above the respective inner supporting formwork element and the pair of opposing outer supporting formwork elements, each panel of the plurality of panels including grout pockets for receiving connectors protruding from the at least one top flange of the at least one steel beam; and grout disposed between the plurality of panels and in the grout pockets of the plurality of panels to form a substantially continuous surface, wherein the plurality of panels disposed atop the at least one top flange of the at least one steel beam exert a downward compressive load on the at least one top flange of the at least one steel beam to bend the at least one steel beam into a predetermined cambered shape and wherein the grout, when cured, maintains the at least one steel beam in the predetermined cambered shape. 13. A method of making a prefabricated, prestressed module comprising: arranging one or more steel beams atop a supporting formwork element in a direction transverse to the supporting formwork element; arranging a pair of outer panels and an inner panel across and above a top flange of the one or more steel beams so that each of the pair of outer panels are proximate ends of each of the one or more steel beams and the inner panel is proximate a middle of the one or more steel beams to exert a compressive load on the one or more steel beams and to form a predefined camber in the one or more steel beams; and disposing grout between the inner panel and each of the pair of outer panels to maintain the predefined camber in the one or more steel beams. 14. The method of making a prefabricated, prestressed module of claim 13 , further comprising: disposing an overlay over the pair of outer panels, the inner panel, and the grout. 15. The method of making a prefabricated, prestressed module of claim 13 , further comprising: applying an external load proximate ends of each of the one or more steel beams to exert a compressive load on the one or more steel beams to camber the one or more steel beams; and removing the external load from the ends of each of the one or more steel beams. 16. The method of making a prefabricated, prestressed module of claim 15 , wherein applying the external load proximate the ends of each of the one or more steel beams to exert the compressive load on the one or more steel beams to camber the one or more steel beams precedes arranging the pair of outer panels and the inner panel across and above a top flange of the one or more steel beams so that each of the pair of outer panels are proximate the ends of each of the one or more steel beams and the inner panel is proximate a middle of the one or more steel beams to exert the compressive load on the one or more steel beams and to form the predefined camber in the one or more steel beams. 17. The prefabricated, prestressed bridge-forming module of claim 12 , wherein the inner panel and the pair of opposing outer panels each include a substantially flat bottom surface disposed atop the at least one top flange of the at least one steel beam. 18. The prefabricated, prestressed bridge-forming module of claim 12 , wherein the grout is disposed between the inner panel and each of the pair of opposing outer panels and in the grout pockets with a monolithic pour. 19. The prefabricated, prestressed bridge-forming module of claim 12 , further comprising: an overlay disposed over the substantially continuous surface, wherein the overlay maintains the at least one steel beam in the predetermined cambered shape. 20. The prefabricated, prestr