Extruder including rotating outlet and method of using the same

What is claimed is: 1. A system for producing a formed article, the system comprising: an extruder comprising: an extruder body comprising one or more material inlets each configured for the introduction of a material component of an extrudate comprising a polyurethane into the extruder body, a first one of the material inlets being coupled to a source of a polyol and a second one of the material inlets being coupled to a source of an isocyanate, and an exit opening, the extruder body being configured to mix the one or more material components of the extrudate, and to convey the mixture so formed to the exit opening, wherein the mixing and conveying includes allowing the polyol and the isocyanate to react to form the polyurethane; a rotatable outlet coupled to the exit opening of the extruder body, the rotatable outlet being configured to allow an extrudate to continue rotating as it leaves the rotatable outlet; and a drive mechanism coupled to the outlet and configured to impart rotation to the rotatable outlet, a receiving surface configured to receive the extrudate after it leaves the outlet, after having been rotated through a predetermined amount of rotation; and a shaping machine configured to receive the extrudate from the receiving surface and to shape the received extrudate into the formed article. 2. The system according to claim 1 , wherein the shaping machine is configured to a more complex pattern on a bottom side of the formed article than on a top side of the formed article. 3. The system according to claim 1 , wherein the extruder further comprises a filler inlet configured to introduce a filler material into the extruder body. 4. The system according to claim 1 , wherein the extruder comprises one or more rotatable screws configured to mix the materials in the extruder body and convey the mixture to the exit opening of the extruder body. 5. The system according to claim 1 , wherein the extruder further comprises a fibrous material inlet configured for the introduction of a fibrous material or precursor therefor into the extruder body. 6. The system according to claim 5 , wherein the fibrous material inlet is coupled to a source of fiberglass. 7. The system according to claim 5 , wherein the extruder body includes a plurality of modules each of which includes a barrel segment, wherein the plurality of modules comprises at least a first module including the one or more material inlets and a second module including the fibrous material inlet. 8. The system according to claim 7 , wherein the plurality of modules includes at least two mixing modules downstream of the one or more material inlets and the fibrous material inlet, each of the mixing modules comprising screw elements that include mixing elements. 9. A method of producing formed article, the method comprising: providing an extruder according to claim 1 ; introducing into the extruder body the polyol through the first one of the material inlets and the isocyanate through the second one of the material inlets; conveying the resulting mixture to the exit opening of the extruder body; rotating the outlet about an aperture of the outlet as an extrudate comprising the polyurethane passes through the outlet, without any cleaning structure contacting an internal surface or distal end of the rotatable outlet; receiving the extrudate on the receiving surface; and receiving the extrudate from the receiving surface at the shaping machine, and shaping the extrudate into the formed article. 10. A system for producing a formed article, the system comprising: an extruder comprising: an extruder body comprising one or more matrix material inlets each configured for the introduction of a material component of a matrix material of an extrudate into the extruder body, a fibrous material inlet coupled to a source of fiberglass, and an exit opening, the extruder body being configured to mix the one or more material components of the matrix material and the fibrous material, and to convey the mixture so formed to the exit opening; a rotatable outlet coupled to the exit opening of the extruder body, the rotatable outlet being configured to allow an extrudate to continue rotating as it leaves the rotatable outlet; and a drive mechanism coupled to the outlet and configured to impart rotation to the rotatable outlet, a receiving surface configured to receive the extrudate after it leaves the outlet, after having been rotated through a predetermined amount of rotation; and a shaping machine configured to receive the extrudate from the receiving surface and to shape the received extrudate into the formed article. 11. The system according to claim 10 , wherein the shaping machine is configured to a more complex pattern on a bottom side of the formed article than on a top side of the formed article. 12. The system according to claim 10 , wherein the extruder further comprises a filler inlet configured to introduce a filler material into the extruder body. 13. The system according to claim 10 , wherein the extruder body includes a plurality of modules each of which includes a barrel segment, wherein the plurality of modules comprises at least a first module including the one or more matrix material inlets and a second module including the fibrous material inlet. 14. The system according to claim 13 , wherein the plurality of modules includes at least two mixing modules downstream of the one or more matrix material inlets and the fibrous material inlet, each of the mixing modules comprising screw elements that include mixing elements. 15. A method of producing formed article, the method comprising: providing an extruder according to claim 10 ; introducing into the extruder body a polyol through a first one of the material inlets and an isocyanate through a second one of the material inlets; conveying the resulting mixture to the exit opening of the extruder body; rotating the outlet about an aperture of the outlet as an extrudate comprising the matrix material and the fibrous material disposed in the matrix material passes through the outlet, without any cleaning structure contacting an internal surface or distal end of the rotatable outlet; receiving the extrudate on the receiving surface; and receiving the extrudate from the receiving surface at the shaping machine, and shaping the extrudate into the formed article.