Hybrid composite utilizing injection-expansion molding

What is claimed is: 1. A vehicular instrument panel, comprising: a substrate comprising a first plurality of chopped carbon fibers and a first plurality of chopped glass fibers within a first nylon resin; an expanded reinforcement coupled to the substrate comprising a second plurality of chopped carbon fibers within a second nylon resin, wherein the first plurality of chopped carbon fibers and the first plurality of glass fibers in the substrate are segregated such that the carbon fibers and the glass fibers are each substantially concentrated within respective driver-side and passenger-side portions of the substrate; and an expanded structural duct comprising a second plurality of chopped glass fibers within a third nylon resin, wherein the duct, reinforcement and substrate are coupled to form a hollow tube. 2. The vehicular instrument panel of claim 1 , wherein the first plurality of chopped carbon fibers in the substrate has a fiber volume fraction in the nylon resin of about 15% to about 40%. 3. The vehicular instrument panel of claim 1 , wherein a first and a second plurality of gas bubbles are disposed within the expanded reinforcement and the expanded structural duct, respectively. 4. The vehicular instrument panel of claim 1 , wherein the first plurality of chopped carbon fibers in the substrate have an average fiber length of about 5 mm to about 7 mm. 5. The vehicular instrument panel of claim 1 , wherein the substrate further comprises a boundary region, and further wherein the first plurality of chopped carbon fibers and the first plurality of glass fibers in the substrate are substantially mixed in the boundary region. 6. The vehicular instrument panel of claim 5 , wherein the first plurality of chopped carbon fibers in the driver-side portion of the substrate has a fiber volume fraction of about 30% to 40% in the first nylon resin, the first plurality of chopped glass fibers in the passenger-side portion has a fiber volume fraction of about 30% to 40% in the first nylon resin, and the first plurality of chopped carbon fibers and the first plurality of chopped glass fibers in the boundary region each have a fiber volume fraction of about 15% to 20% in the first nylon resin. 7. The vehicular instrument panel of claim 1 , wherein the structural duct is positioned between the reinforcement and the substrate. 8. The vehicular instrument panel of claim 7 , wherein the hollow tube defined by the reinforcement and the duct is configured to distribute air through the instrument panel. 9. The vehicular instrument panel of claim 7 , wherein the substantially hollow tube extends the length of the instrument panel. 10. The vehicular instrument panel of claim 7 , wherein the first nylon resin of the substrate is expanded. 11. A vehicular instrument panel, comprising: a first expanded member comprising a first fiber composite material; a second expanded member comprising a second fiber composite material; and a substrate coupled to the expanded members comprising a first fiber material and a second fiber material within a resin, the first and second fiber materials segregated into respective driver-side and passenger-side portions of the substrate, wherein the first and second expanded members are coupled to support the substrate. 12. The vehicular instrument panel of claim 11 , wherein the first and second expanded members each contain a plurality of gas bubbles disposed throughout. 13. The vehicular instrument panel of claim 11 , wherein the first and second fiber materials are each selected from the group of materials consisting of carbons, aramids, aluminum metals, aluminum oxides, steels, borons, silicas, silicon carbides, silicon nitrides, ultra-high-molecular-weight polyethylenes, A-glasses, E-glasses, E-CR-glasses, C-glasses, D-glasses, R-glasses, and S-glasses. 14. The vehicular instrument panel of claim 11 , wherein the resin is selected from the group of materials consisting of a nylon, a polypropylene, an epoxy, a polyester, a vinyl ester, a polyetheretherketone, a poly(phenylene sulfide), a polyetherimide, a polycarbonate, a silicone, a polyimide, a poly(ether sulfone), a melamine-formaldehyde, a phenol-formaldehyde, and a polybenzimidazole. 15. A method of forming a vehicular component, comprising the steps: melting a first composite comprising a first fiber material, a first resin, and a first expansion agent; melting a second composite comprising a second fiber material, a second resin, and a second expansion agent; injecting the melted composites into a mold such that the first and second composites are each substantially concentrated into respective first and second portions of the mold; opening the mold and allowing the melted composites to expand; and cooling the melted and expanded composites to form an instrument panel component. 16. The vehicular component of claim 15 , wherein the first and second fiber materials are each selected from the group of materials consisting of carbons, aramids, aluminum metals, aluminum oxides, steels, borons, silicas, silicon carbides, silicon nitrides, ultra-high-molecular-weight polyethylenes, A-glasses, E-glasses, E-CR-glasses, C-glasses, D-glasses, R-glasses, and S-glasses. 17. The vehicular component of claim 15 , wherein the first and second resins are each selected from the group of materials consisting of a nylon, a polypropylene, an epoxy, a polyester, a vinyl ester, a polyetheretherketone, a poly(phenylene sulfide), a polyetherimide, a polycarbonate, a silicone, a polyimide, a poly(ether sulfone), a melamine-formaldehyde, a phenol-formaldehyde, and a polybenzimidazole. 18. The vehicular component of claim 15 , wherein the first and second portions each have a fiber volume fraction of the respective first and second fiber materials in the respective first and second resins of about 15% to about 40%. 19. The vehicular component of claim 18 , wherein the first fiber material in the first portion has a fiber volume fraction of about 30% to 40% in the first resin, the second fiber material in the portion has a fiber volume fraction of about 30% to 40% in the second resin, and the first and second fiber materials in the boundary region each have a fiber volume fraction of about 15% to 20% in the mixture of the first and second resins. 20. The vehicular component of claim 15 , wherein the first and second expansion agents are selected from the group comprising nitrogen, carbon dioxide, hydrazine, and sodium bicarbonate.