Concrete i-beam for bridge construction

What is claimed is: 1. A concrete beam comprising: a web having a top end and a bottom end; a support surface at the top end of the web having a length; one or more bottom flanges, each having a a ridge, that extend from the bottom end of the web, each of the one or more bottom flanges having a maximum length that is greater than the length of the support surface, a modular reinforcement cage comprising connectable components embedded in the web and the one or more bottom flanges; wherein a first concrete beam with the ridge abutting the ridge of a second concrete beam forms a depression, adapted to contain grout material, for joining the bottom flanges. 2. A beam, according to claim 1 , further comprising one or more top flanges that extend from the top end of the web and are parallel to the one or more bottom flanges, the one or more top flanges having a maximum length that is less than the maximum length of said one or more bottom flanges, such that when the ridge of the first concrete beam is abutting to the ridge of the second concrete beam there is a channel between the top flanges. 3. A beam, according to claim 2 , further comprising a joint formwork operably connectable between one of said one or more top flanges of the first concrete beam and one of said one or more top flange of the second concrete beam, the joint formwork being adapted to enclose grout material in the channel to join the top flanges, thereby forming an internal void between the concrete beams. 4. A beam, according to claim 1 , wherein the support surface is adapted to support a secondary structure between the first beam and the second beam, such that an enclosed internal void is formed between the beams and the secondary structure. 5. A method for constructing superstructure utilizing two or more beams, wherein each beam comprises: a web having a top end and a bottom end; a support surface at the top end of the web having a length; two or more flanges, each having a ridge, extending from opposite sides of the bottom end of the web and having a maximum length that is greater than the length of the support surface; wherein the method comprises; positioning the two or more beams with the ridges of the flanges abutting one another to form a depression, and utilizing the depression, adapted to receive a grout material to form a joint that connects the adjacent flanges the beam further comprising one or more top flanges that extend from the top end of the web, one of said one or more top flanges being parallel to one of said one or more bottom flanges and having a maximum length that is less than the maximum length of the one or more bottom flanges, wherein the method further comprises: utilizing a joint formwork to connect the top flanges of the two or more side-by-side beams, which comprises, positioning an inside mold between and against two connected top flanges to form a shear key adapted to receive the grout material; attaching a connector to the inside mold that extends through the shear key; filling the shear key with the grout material; connecting an outside mold to the connector so that the outside mold is against the connected top flanges and over the shear key, thereby containing the grout material within the shear key such that an internal void is formed between the two beams. 6. The method, according to claim 5 , wherein the depression is further adapted to receive a backing material, the method further comprising placing the backing material in the depression between or against the ridges. 7. A concrete beam, adapted for use in superstructure, comprising: a web having a top end and a bottom end; one or more bottom flanges, each having a ridge, extending from opposite sides of the bottom end of the web and each having a maximum length, one or more top flanges that extend from opposite sides of the top end of the web, parallel to the one or more bottom flanges, each top flange having a maximum length that is less than the maximum length one of said one or more bottom flanges; a reinforcement cage embedded within the beam; such that the one or more bottom flanges and the one or more top flanges of a first beam are joined to the one or more bottom flanges and the one or more top flanges of a second beam, to provide an open internal void between the joined flanges and the webs. 8. The concrete beam, according to claim 7 , wherein joining the bottom flanges includes positioning the ridge of a bottom flange of the first beam abutting the ridge of the bottom flange of the second beam, thereby forming a depression between the bottom flanges and a channel between the top flanges of the first beam and the top flange of the second beam. 9. The concrete beam, according to claim 8 , wherein the depression and the channel are adapted to receive a grout material to join the concrete beams.