Extrusion die having thermally responsive lip adjustment assembly

What is claimed is: 1. An extrusion die for forming an extrudate, the extrusion die comprising: a first die body having a first lip, a second die body having a second lip, said second lip positioned opposite and adjacent to said first lip, a gap extending in a first direction from said first lip to said second lip, said gap also extending in a second direction perpendicular to said first direction; and a lip adjustment assembly mounted to said first die body and configured to adjust the position of said first lip relative to said second lip to thereby adjust a thickness of said extrudate that exits said gap, said lip adjustment assembly having a working end adjacent to said first lip, an exposed end opposite to said working end, and a translating unit between said exposed end and said working end, said translating unit configured to move said working end to adjust the position of said first lip, said translating unit having a translator, a mounting member coupled to said translator, and a rod having a central axis and that is coupled to said mounting member, said translator being fixed with respect to said rod, said mounting member configured to be accessible from said exposed end to decouple said translator from said rod so that said translator is removable from said lip adjustment assembly, wherein said lip adjustment assembly includes a rotation inhibitor configured to inhibit rotation of said rod about said central axis. 2. The extrusion die of claim 1 , wherein said translator includes a trailing end, a leading end, and a chamber that extends from said trailing end to said leading end, said mounting member removably couples said leading end of said translator to said rod, and said mounting member is accessible from said exposed end via said chamber, and wherein said rod has a rear end and a forward end opposite said rear end, and said mounting member being removably coupled to said rear end of said rod. 3. The extrusion die of claim 1 , wherein said exposed end is substantially unobstructed to provide access to said translating unit. 4. The extrusion die of claim 1 , wherein said rotation inhibitor is coupled to said translator and said rod, and said mounting member removably couples said translator to both said rotation inhibitor and said rod. 5. The extrusion die of claim 4 , wherein said lip adjustment assembly includes an adjustment bar having a channel that is elongate along said second direction, and a bore having a central axis, said bore being elongate along said central axis and aligned with said channel, such that, said rotation inhibitor mates with said channel and said rod extends through said bore to said working end of said lip adjustment assembly. 6. The extrusion die of claim 5 , wherein said adjustment bar is monolithic with said first die body, wherein said rotation inhibitor has a first portion and a second portion opposite to said first portion, and said translator having a cavity, wherein said first portion mates with said cavity and said second portion mates with said channel. 7. The extrusion die of claim 1 , wherein said lip adjustment assembly includes a first standoff frame, a second standoff frame that is opposite from said first standoff frame, and a space disposed between said first and second standoff frames, and each of said first and second standoff frames support said translator within said space. 8. The extrusion die of claim 7 , wherein said lip adjustment assembly includes a plurality of said translating units aligned with respect to each other along said second direction and each of said first and second standoff frames support said plurality of translating units. 9. The extrusion die of claim 7 , wherein said first and second standoff frames each define a top, a bottom, a first side, a second side spaced from said first side, and one or more windows, wherein said lip adjustment assembly includes an adjustment bar that includes a first keyway and a second keyway opposite said first keyway, and said first and second bottoms of said first and second standoff frames include first and second interlocks mounted in said first and second keyways, respectively. 10. The extrusion die of claim 9 , wherein said rod is elongate along its said central axis, said adjustment bar having a bore, and said rod extends through said bore to said working end of said lip adjustment assembly. 11. The extrusion die of claim 1 , wherein said lip adjustment assembly is configured for ambient cooling. 12. The extrusion die of claim 1 , wherein said lip adjustment assembly is configured for forced air cooling. 13. The extrusion die of claim 1 , wherein said lip adjustment assembly is configured to push said first lip to adjust said gap. 14. The extrusion die of claim 1 , wherein said lip adjustment assembly is configured to both push and pull said first lip to adjust said gap. 15. An extrusion die for forming an extrudate, the extrusion die comprising: a first die body having a first lip, a second die body having a second lip, said second lip positioned opposite and adjacent to said first lip, a gap extending in a first direction from said first lip to said second lip, said gap also extending in a second direction perpendicular to said first direction; and a lip adjustment assembly mounted to said first die body and configured to adjust the position of said first lip relative to said second lip to thereby adjust a thickness of said extrudate that exits said gap, said lip adjustment assembly having a working end adjacent to said first lip, an exposed end opposite to said working end, and a translating unit between said exposed end and said working end, said translating unit configured to move said working end to adjust the position of said first lip, said translating unit having a translator, a mounting member coupled to said translator, and a rod having a central axis and that is coupled to said mounting member, said translator being fixed with respect to said rod, said mounting member configured to be accessible from said exposed end to decouple said translator from said rod so that said translator is removable from said lip adjustment assembly, wherein said lip adjustment assembly includes a first standoff frame, a second standoff frame that is opposite from said first standoff frame, and a space disposed between said first and second standoff frames, and each of said first and second standoff frames support said translator within said space. 16. The extrusion die of claim 15 , wherein said lip adjustment assembly includes a plurality of said translating units aligned with respect to each other along said second direction and each of said first and second standoff frames support said plurality of translating units. 17. The extrusion die of claim 15 , wherein said first and second standoff frames each define a top, a bottom, a first side, a second side spaced from said first side, and one or more windows, wherein said lip adjustment assembly includes an adjustment bar that includes a first keyway and a second keyway opposite said first keyway, and said first and second bottoms of said first and second standoff frames include first and second interlocks mounted in said first and second keyways, respectively. 18. The extrusion die of claim 17 , wherein said rod is elongate along its said central axis, said adjustment bar having a bore, and said rod extends through said bore to said working end of said lip adjustment assembly. 19. The extrusion die of claim 15 , wherein said lip adjustment assembly is configured for ambient coo