Extrusion die plate assembly for a pelletizer system

What is claimed is: 1. An extrusion die plate assembly for an underwater pelletizer system, wherein, during operation, molten plastic flows through an extruder and exits into a fluid bath for further processing, wherein the assembly comprises: a die plate at the exit of the extruder, wherein the die plate has a plurality of through holes for receiving fasteners for mounting the plate to the extruder, and at least one insulation chamber within the die plate for insulating the die plate from the fluid bath located on a downstream side of the plate; and at least one gasket covering one or more of the through holes to seal one or more through holes from the fluid bath, wherein the insulation chamber is covered by an insulation chamber cover comprising a peripheral groove about the circumference of the cover and configured to receive at least a portion of the gasket contacting the cover. 2. The extrusion die plate assembly of claim 1 , wherein at least a portion of the at least one gasket is positioned between the fluid bath and at least a portion of the insulation chamber. 3. The extrusion die plate assembly of claim 1 , wherein the at least one gasket is an annular gasket. 4. The extrusion die plate assembly of claim 1 , further comprising at least one retainer connected to the at least one gasket, the retainer being substantially identical in shape as the gasket. 5. The extrusion die plate assembly of claim 1 , wherein the die plate is a center-mounted die plate, and wherein the through holes are arranged to form, an inner ring of the through holes and an outer ring of the through holes. 6. The extrusion die plate assembly of claim 5 , wherein an annular gasket covers the inner ring of the through holes. 7. The extrusion die plate assembly of claim 6 , wherein the insulation chamber is positioned at the center of the die plate, radially inward from the inner ring of through holes. 8. The extrusion die plate assembly of claim 1 , wherein the gasket comprises an elastomeric material. 9. The extrusion die plate assembly of claim 8 , wherein the gasket comprises polymer layers formed from tetrafluoroethylene, propylene, and combinations thereof. 10. An extrusion die plate assembly for an underwater pelletizer system, wherein molten plastic flows through an extruder and exits into a fluid bath for further processing, wherein the assembly comprises: a center-mounted die plate at the exit of the extruder, wherein the die plate has an inner ring of through holes and an outer ring of through holes, wherein the through holes are configured to receive fasteners for mounting the plate to the extruder; at least one annular gasket covering the inner ring of through holes to seal the through holes from the fluid bath; and an annular groove of the die plate configured to receive the annular gasket in a recessed orientation relative to a raised central portion of the die plate. 11. The extrusion die plate assembly of claim 10 , wherein, when in the recessed position, the annular gasket is flush with a surface of the raised central portion of the die plate. 12. The extrusion die plate assembly of claim 10 , wherein the at least one annular gasket comprises an elastomeric material. 13. An extrusion die plate assembly for an underwater pelletizer system, wherein, during operation, molten plastic flows through an extruder and exits into a fluid bath for further processing, wherein the assembly comprises: a die plate at the exit of the extruder, wherein the die plate has a plurality of through holes for receiving fasteners for mounting the plate to the extruder, and at least one insulation chamber within the die plate for insulating the die plate from the fluid bath located on a downstream side of the plate; and an inner gasket covering one or more of the through holes to seal one or more through holes from the fluid bath, wherein the insulation chamber is covered by an insulation chamber cover, and the inner gasket at least partially covers an exterior surface of the insulation chamber cover. 14. The extrusion die plate of claim 13 , wherein at least 50% of the inner gasket covers the exterior surface of the insulation chamber cover. 15. The extrusion die plate assembly of claim 13 , wherein the insulation chamber is integrally formed into the die plate. 16. The extrusion die plate assembly of claim 13 , wherein the insulation chamber is formed from a substantially circular void space. 17. The extrusion die plate assembly of claim 16 , wherein the insulation chamber cover is welded into place. 18. The extrusion die plate assembly of claim 13 , wherein the inner gasket is an annular gasket. 19. The extrusion die plate assembly of claim 13 , wherein the insulation chamber comprises a central support.