Ribbon filament and assembly for use in extrusion-based digital manufacturing systems

The invention claimed is: 1. A non-cylindrical ribbon filament for use in an extrusion-based digital manufacturing system with a ribbon liquefier to build a three-dimensional model in a layer-by-layer manner, the ribbon filament comprising: a composition comprising at least one extrudable material; a length that is continuous for at least a distance such that the ribbon filament is feedable from a supply source to the ribbon liquefier configured to melt and extrude the filament, the ribbon liquefier retained by a moveable head of the extrusion-based digital manufacturing system; and a cross-sectional profile of the length that is axially asymmetric and having a width and a thickness, wherein the width ranges from about 1.0 millimeter to about 10.2 millimeters, wherein the thickness ranges from about 0.51 millimeters to about 1.0 millimeter, and wherein the cross-sectional profile of the ribbon filament has a cross-sectional aspect ratio of the width to the thickness ranging from about 2.5:1 to about 20:1; wherein the ribbon filament exhibits a flexibility such that the ribbon filament does not plastically deform or fracture while retained by the supply source or when fed from the supply source to the ribbon liquefier; and wherein the ribbon filament further exhibits a Young's Modulus value ranging from about 1.0 gigapascal to about 5.0 gigapascals. 2. The ribbon filament of claim 1 , wherein the at least one extrudable material comprises a thermoplastic polymeric material. 3. The ribbon filament of claim 1 , wherein the cross-sectional profile is configured to mate with the ribbon liquefier having an entrance cross-sectional area A e and a hydraulic diameter D h with the ribbon filament, wherein D h <0.95√{square root over (A e )}. 4. The ribbon filament of claim 3 , wherein D h <0.90√{square root over (A e )}, and D h >0.40√{square root over (A e )}. 5. The ribbon filament of claim 1 , wherein the ribbon filament is configured to mate with the ribbon liquefier in a manner that exhibits a response time for extruding melted filament that is at least 50% faster than a response time achievable with a cylindrical filament in a cylindrical liquefier for a same thermally limited, maximum volumetric flow rate. 6. The ribbon filament of claim 1 , wherein the ribbon filament further comprises a base portion having a first surface and a second surface, and a layer disposed on the first surface of the base portion, and wherein the base portion and the first surface are derived from different materials. 7. The ribbon filament of claim 1 , wherein the cross-sectional aspect ratio of the width to the thickness ranges from about 3:1 to about 10:1. 8. An assembly for use in an extrusion-based digital manufacturing system with a ribbon liquefier to build a three-dimensional model in a layer-by-layer manner, the assembly comprising: a supply source configured to engage the extrusion-based digital manufacturing system; and a ribbon filament retained by the supply source, the ribbon filament comprising: a composition comprising at least one extrudable material; a length that is continuous for at least a distance such that the ribbon filament is feedable from the supply source to the ribbon liquefier retained by a moveable head of the extrusion-based digital manufacturing system; and a rectangular cross-sectional profile of the length, which is configured to mate with the ribbon liquefier having an entrance cross-sectional area A e and a hydraulic diameter D h with the ribbon filament, wherein D h <0.95√{square root over (A e )}, and wherein the rectangular cross-sectional profile has a width and a thickness with a cross-sectional aspect ratio of the width to the thickness ranging from about 2.5:1 to about 20:1; wherein the ribbon filament exhibits a flexibility such that the ribbon filament does not plastically deform or fracture while retained by the supply source; and wherein the ribbon filament further exhibits a Young's Modulus value ranging from about 1.0 gigapascal to about 5.0 gigapascals. 9. The assembly of claim 8 , wherein the at least one extrudable material comprises a thermoplastic polymeric material. 10. The assembly of claim 8 , wherein D h <0.90√{square root over (A e )} and D h >0.40√{square root over (A e )}. 11. The assembly of claim 8 , wherein the supply source comprises a spool on which at least a portion of the ribbon filament is wound. 12. The assembly of claim 11 , wherein the supply source further comprises a container, wherein the spool is retained within the container. 13. The assembly of claim 8 , wherein the width ranges from about 1.0 millimeter to about 10.2 millimeters, wherein the thickness ranges from about 0.51 millimeters to about 1.0 millimeter. 14. An assembly for use in an extrusion-based digital manufacturing system with a ribbon liquefier to build a three-dimensional model in a layer-by-layer manner, the assembly comprising: a container configured to engage the extrusion-based digital manufacturing system; a pathway from the container and configured to extend to a ribbon liquefier retainable by a moveable head of the extrusion-based digital manufacturing system; and a ribbon filament at least partially retained within the container and feedable through the pathway from the container to the ribbon liquefier, the ribbon filament comprising: a composition comprising at least one extrudable material; a length; a rectangular cross-sectional profile of the length, which is configured to mate with the ribbon liquefier having an entrance cross-sectional area A e and a hydraulic diameter D h with the ribbon filament, wherein D h <0.95√{square root over (A e )}, and wherein the rectangular cross-sectional profile has a width and a thickness with a cross-sectional aspect ratio of the width to the thickness ranging from about 2.5:1 to about 20:1; wherein the ribbon filament exhibits a flexibility such that the ribbon filament does not plastically deform or fracture while retained by the supply source; and wherein the ribbon filament further exhibits a Young's Modulus value ranging from about 1.0 gigapascal to about 5.0 gigapascals. 15. The assembly of claim 14 , wherein the at least one extrudable material comprises a thermoplastic polymeric material. 16. The assembly of claim 14 , wherein D h <0.90√{square root over (A e )} and D h >0.40√{square root over (A e )}. 17. The assembly of claim 14 , and further comprising a spool retained in the container, wherein at least a portion of the ribbon filament is wound on the spool. 18. The assembly of claim 14 , and further comprising the ribbon liquefier. 19. The assembly of claim 14 , wherein the width ranges from about 1.0 millimeter to about 10.2 millimeters, wherein the thickness ranges from about 0.51 millimeters to about 1.0 millimeter. 20. The assembly of claim 14 , wherein the ribbon filament further comprises a base portion having a first surface and a second surface, and a layer disposed on the first surface of the base portion, and wherein the base portion and the first surface are derived from different materials.