Coextrusion feedblock, coextrusion profiling insert assembly, and methods of operation

What is claimed is: 1. A coextrusion feedblock for producing an extrudate, said coextrusion feedblock comprising: an adjuster, a viscosity compensation device having a flex region, an actuator in contact with said viscosity compensation device, a central extrusion conduit having a height, and a coextrusion conduit extending between said adjuster and said viscosity compensation device, said coextrusion conduit having a gap height, a width, and a length, wherein said coextrusion conduit opens into said central extrusion conduit, wherein said adjuster is adjustable to simultaneously change said gap height of said coextrusion conduit and said height of said central extrusion conduit, and wherein said actuator is adjustable to apply a force to bend said flex region and thereby adjust said gap height of said coextrusion conduit without changing said height of said central extrusion conduit. 2. The coextrusion feedblock of claim 1 , wherein: said viscosity compensation device has a base region and a flow-contact region, said flex region of said viscosity compensation device comprises a bendable neck extending between said base region and said flow-contact region, said actuator extends through said base region, and said flow-contact region has a convex flow-contacting surface exposed to said coextrusion conduit. 3. The coextrusion feedblock of claim 1 , wherein: said adjuster is wedge shaped and has a first flow-contacting surface and a second flow-contacting surface, said first flow-contacting surface is exposed to said central extrusion conduit, said second flow-contacting surface is exposed to said coextrusion conduit and has a concave configuration, and said viscosity compensation device has a convex flow-contacting surface exposed to said coextrusion conduit and confronts said second flow-contacting surface of said adjuster. 4. The coextrusion feedblock of claim 1 , wherein: said coextrusion feedblock has a housing and said actuator extends beyond said housing, such that said coextrusion conduit can be profiled from outside of said housing without stopping operation of said coextrusion feedblock. 5. The coextrusion feedblock of claim 1 , wherein: said actuator comprises a plurality of push/pull members, said viscosity compensation device has a plurality of sections located along said width of said coextrusion conduit, and said plurality of sections are adjustable such that said gap height of said coextrusion conduit is different adjacent to different sections of said viscosity compensation device. 6. The coextrusion feedblock of claim 5 , wherein: said plurality of push/pull members are attached to respective sections of said viscosity compensation device, a first of said push/pull members is moveable axially to selectively push or pull a first of said sections, thereby changing said gap height adjacent to said first of said sections, and a second of said push/pull members is moveable axially to selectively push or pull a second of said sections, thereby changing said gap height adjacent to said second of said sections. 7. The coextrusion feedblock of claim 1 , wherein: said adjuster has a flow-contacting surface that is seamless over said width of said coextrusion conduit, and said viscosity compensation device has a flow-contacting surface that is seamless over said width of said coextrusion conduit. 8. The coextrusion feedblock of claim 5 , wherein: said adjuster confronts said viscosity compensation device, said plurality of sections of said viscosity compensation device include adjacent first adjustment section and second adjustment section connected to each other by a flexible region, and said flexible region being configured to bend in response to said first adjustment section moving closer to, or further from, said adjuster than is said second adjustment section. 9. A coextrusion profiling insert assembly constructed to be mounted in a coextrusion feedblock having a central extrusion conduit with a height, said coextrusion profiling insert assembly comprising: a adjuster, a viscosity compensation device comprising a flex region, and an actuator, wherein, when said coextrusion profiling insert assembly is mounted in the coextrusion feedblock having a coextrusion conduit with a gap height extending between said adjuster and said viscosity compensation device, said actuator is adjustable to apply a force to bend said flex region and thereby adjust said gap height of said coextrusion conduit without changing said height of said central extrusion conduit, wherein said coextrusion conduit opens into said central extrusion conduit, and wherein said adjuster is adjustable to simultaneously change said gap height of said coextrusion conduit and said height of said central extrusion conduit. 10. The coextrusion profiling insert assembly of claim 9 , wherein: said viscosity compensation device has a base region and a flow-contact region, said flex region of said viscosity compensation device comprises a bendable neck extending between said base region and said flow-contact region, and said flow-contact region has a convex flow-contacting surface. 11. The coextrusion profiling insert assembly of claim 9 , wherein: said adjuster is wedge shaped and has a first flow-contacting surface and a second flow-contacting surface, said second flow-contacting surface of said adjuster has a concave configuration, said viscosity compensation device has a convex flow-contacting surface, and when said coextrusion profiling insert assembly is mounted in the coextrusion feedblock: i) said first flow-contacting surface of said adjuster is exposed to the central extrusion conduit of the coextrusion feedblock, ii) said second flow-contacting surface of said adjuster is exposed to the coextrusion conduit, and iii) said convex flow-contacting surface of said viscosity compensation device is exposed to the coextrusion conduit and confronts said second flow-contacting surface of said adjuster. 12. The coextrusion profiling insert assembly of claim 9 , wherein: said actuator comprises a plurality of push/pull members, and said viscosity compensation device has a plurality of sections and is adjustable such that the gap height of the coextrusion conduit is different adjacent to different sections of said viscosity compensation device. 13. The coextrusion profiling insert assembly of claim 12 , wherein: said plurality of push/pull members are configured to be attached to respective sections of said viscosity compensation device, a first of said push/pull members is moveable axially to selectively push or pull a first of said sections, thereby changing the gap height of the coextrusion conduit adjacent to said first of said sections, and a second of said push/pull members is moveable axially to selectively push or pull a second of said sections, thereby changing the gap height of the coextrusion conduit adjacent to said second of said sections. 14. The coextrusion profiling insert assembly of claim 9 , wherein: said adjuster has a flow-contacting surface that is seamless over a width of the coextrusion conduit, and said viscosity compensation device has a flow-contacting surface that is seamless over the width of the coextrusion conduit. 15. The coextrusion profiling insert assembly of claim 12 , wherein: said plurality of sections of said viscosity compensation device include adjacent first adjustment section and second adjustment section connected to each other by a flexible region, said flexible region configured to bend in response to said first adjustment section