Reinforced thermoplastic structural joint assembly for a vehicle

What is claimed is: 1. A method of manufacturing a structural joint assembly comprising: molding a first thermoplastic member with fibrous material and having peripheral ribs defining a recessed channel with at least one protrusion extend from the channel; molding a second thermoplastic member; providing a reinforcement member sized to be received within the channel of the first thermoplastic member and having a receptacle for a mating engagement with the at least one protrusion; mounting the reinforcement member to the first thermoplastic member such that the receptacle of the reinforcement member is retained by the protrusion without adhesive bonding or overmolding and the reinforcement member; and abutting an inner surface of the second thermoplastic member to the first thermoplastic member along the peripheral ribs and the at least one protrusion such that the reinforcement member is provided between the first thermoplastic member and the second thermoplastic member; welding the second thermoplastic member to the first thermoplastic member by applying thermoplastic welding to an outer surface of the second thermoplastic member to entirely enclose the reinforcement within the first and second thermoplastic members with a thermoplastic weld along the peripheral ribs thereby increasing load capacity. 2. The method of manufacturing of claim 1 further comprising: providing the first thermoplastic member with a plurality of protrusions; and providing the reinforcement member with a plurality of receptacles corresponding with the plurality of protrusions of the first thermoplastic member. 3. The method of manufacturing of claim 1 further comprising: providing the first thermoplastic member with a plurality of protrusions and having a circular shape; and providing the reinforcement member with a plurality of receptacles corresponding with the plurality of protrusions of the first thermoplastic member and having a circular shape. 4. The method of manufacturing of claim 1 further comprising: providing the first thermoplastic member with a plurality of protrusions and having a rectangular shape; and providing the reinforcement member with a plurality of receptacles corresponding with the plurality of protrusions of the first thermoplastic member and having a rectangular shape. 5. The method of manufacturing of claim 1 further comprising: providing the first thermoplastic member with a plurality of protrusions and having a triangular shape; and providing the reinforcement member with a plurality of receptacles corresponding with the plurality of protrusions of the first thermoplastic member and having a triangular shape. 6. The method of manufacturing of claim 1 wherein the reinforcement member is further defined as a metal reinforcement member thereby further increasing load capacity. 7. The method of manufacturing of claim 1 further comprising: molding first thermoplastic member and the second thermoplastic member with flanges; and mounting the first thermoplastic member and the second thermoplastic member to structural components in an automotive vehicle with the flanges. 8. The method of manufacturing of claim 1 further comprising: mounting at least one of the first thermoplastic member and the second thermoplastic member to a vehicle roof panel; and mounting the other of the first thermoplastic member and the second thermoplastic member to a vehicle frame. 9. The method of manufacturing of claim 1 further comprising molding the second thermoplastic without any openings. 10. A structural joint assembly manufactured by a method comprising: molding a first thermoplastic member with fibrous material having peripheral ribs defining a channel with at least one protrusion provided therein; molding a second thermoplastic member; providing a reinforcement member sized to be received by channel in the first thermoplastic member and having a receptacle for a mating engagement with the at least one protrusion; mounting the reinforcement member to the first thermoplastic member such that the receptacle of the reinforcement member is retained in the channel by the protrusion without adhesive bonding or overmolding; and joining the second thermoplastic member to the first thermoplastic member along the ribs and the at least one protrusion such that the reinforcement member is entirely enclosed within the first thermoplastic member and the second thermoplastic member thereby increasing load capacity. 11. The structural joint assembly of claim 10 wherein the first thermoplastic member is molded with a pair protrusions and the reinforcement member has a pair of corresponding pre-formed receptacles formed therein, the pair of protrusions mating with the pair of receptacles to align the reinforcement member with the first thermoplastic member. 12. The structural joint assembly of claim 10 wherein at least one of the first thermoplastic member and the second thermoplastic member is molded with a flange which is mounted to a structural component in an automotive vehicle. 13. The structural joint assembly of claim 12 wherein at least one of the first thermoplastic member and the second thermoplastic member is mounted to a vehicle roof panel and the other of the first thermoplastic member and the second thermoplastic member is mounted to a vehicle frame. 14. The structural joint assembly of claim 10 wherein the reinforcement member is formed from a metallic material. 15. A manufacturing method comprising: molding a first thermoplastic member with fibrous material having a peripheral ribs defining a recessed channel with a protrusion disposed therein; mounting a metal reinforcement having a preformed receptacle such that the receptacle is retained on the protrusion and within the channel; welding a second thermoplastic member to the first thermoplastic member along the protrusion and ribs such that the reinforcement is entirely enclosed within the first and second thermoplastic members. 16. The manufacturing method of claim 15 further comprising molding the first thermoplastic member with a pair of protrusions and the reinforcement has a pair of corresponding preformed receptacles formed therein, the pair of protrusions mating with the pair of receptacles to align the reinforcement with the first thermoplastic member. 17. The manufacturing method of claim 15 further comprising: abutting an inner surface of the second thermoplastic member to the first thermoplastic member along the peripheral ribs and the at least one protrusion; welding the second thermoplastic member to the first thermoplastic member by applying thermoplastic welding to an outer surface of the second thermoplastic member to entirely enclose the reinforcement within the first and second thermoplastic members with a thermoplastic weld along the peripheral ribs. 18. The manufacturing method of claim 15 further comprising: molding first thermoplastic member and the second thermoplastic member with flange; and mounting the first thermoplastic member and the second thermoplastic member to structural components in an automotive vehicle with the flanges. 19. The manufacturing method of claim 15 further comprising: mounting the first thermoplastic member to a first automotive structural component; and mounting the second thermoplastic member to a second automotive structural component.