Additively manufactured part including a compacted fiber reinforced composite filament

What is claimed is: 1. An additively manufactured part, comprising: a top portion; a bottom portion; and a plurality of compacted composite filaments arranged in layers between the top portion and the bottom portion, each compacted composite filament including one or more axial fiber strands, wherein the plurality of compacted composite filaments includes a first compacted composite filament located in a first layer and a second compacted composite filament located in a second layer, the first layer being located closer to the bottom portion than the second layer, and wherein the second compacted composite filament layer is compressed against the first compacted composite filament, forming a vertically bonded rank in which the one or more axial fiber strands of the second compacted composite filament intrudes into the first compacted composite filament. 2. The additively manufactured part of claim 1 , wherein the first compacted composite filament and the second compacted composite filament have a substantially rectangular cross-sectional shape. 3. The additively manufactured part of claim 1 , wherein the first compacted composite filament and the second compacted composite filament have substantially the same cross-sectional area. 4. The additively manufactured part of claim 1 , wherein in each compacted composite filament, the one or more axial fiber strands extends within a matrix material. 5. The additively manufactured part of claim 1 , wherein a height of the second compacted composite filament is less than a width of the second compacted composite filament. 6. The additively manufactured part of claim 1 , wherein the plurality of compacted composite filaments includes a third compacted composite filament located adjacent the second compacted composite filament in the second layer, and wherein the second compacted composite filament is compressed against the third compacted composite filament, forming a laterally bonded rank in which the one or more axial fiber strands of the second compacted composite filament intrudes into the third compacted composite filament. 7. The additively manufactured part of claim 6 , wherein the second compacted composite filament and the third compacted filament have a substantially rectangular cross-sectional shape. 8. The additively manufactured part of claim 6 , wherein the second compacted composite filament and the third compacted composite filament have substantially the same cross-sectional area. 9. An additively manufactured part created by a process comprising acts of: guiding multistranded composite filament including one or more axial fiber strands through a conduit within a deposition head, the conduit smoothly and continuously transitioning to a substantially rounded outlet, the substantially rounded outlet having a rounded inner lip in a vertical plane cross-section; driving the substantially rounded outlet to flatten the multistranded composite filament against previously deposited portions of the part; separating the multistranded composite filament to form an unattached terminal end along a path of the multistranded composite filament at a location proximate to the substantially rounded outlet; and driving the unattached terminal end of the multistranded composite filament through the conduit to exit the—substantially rounded outlet. 10. The additively manufactured part of claim 9 , wherein the process by which the part is created further comprises an act of: along the path of the multistranded composite filament, cutting the multistranded composite filament to separate the multistranded composite filament to form the unattached terminal end. 11. The additively manufactured part of claim 10 , wherein the process by which the part is created further comprises an act of: preventing, with a clearance fit zone, buckling of the multistranded composite filament. 12. The additively manufactured part of claim 11 , wherein the process by which the part is created further comprises an act of: maintaining a substantially constant cross sectional area of the multistranded composite filament in the clearance fit zone, at the substantially rounded outlet, and as attached to the part. 13. The additively manufactured part of claim 9 , wherein the process by which the part is created further comprises an act of: supplying the multistranded composite filament including the one or more axial fiber strands extending within a matrix material. 14. The additively manufactured part of claim 9 , wherein the process by which the part is created further comprises an act of: pulling the multistranded composite filament out of the rounded nozzle by a dragging force applied to the multistranded composite filament via the one or more axial fiber strands. 15. The additively manufactured part of claim 9 , wherein the process by which the part is created further comprises an act of: controlling a height of the substantially rounded outlet from a top of the part to a level which spreads the one or more axial fiber strands and flattens the multistranded composite filament against previously deposited portions of the part, and is less than a diameter of the multistranded composite filament. 16. The additively manufactured part of claim 15 , wherein the process by which the part is created further comprises an act of: controlling a height of the substantially rounded outlet from the top of the part to a level which forms laterally and vertically bonded ranks that are flattened on at least two sides by force from the substantially rounded outlet and reaction force from the part itself. 17. The additively manufactured part of claim 9 , wherein the process by which the part is created further comprises an act of: controlling a feed rate of a filament drive and a printing rate of a deposition head drive to, when the multistranded composite filament is anchored in the part, maintain a neutral to positive tension in the multistranded composite filament between the substantially rounded outlet and the part via tensile force along the one or more axial fiber strands. 18. The additively manufactured part of claim 9 , wherein the process by which the part is created further comprises an act of: controlling a feed rate of the filament drive and a printing rate of the deposition head drive to, when the multistranded composite filament is not anchored in the part, induce compression along the one or more axial fiber strands to force the unattached terminal end of the multistranded composite filament through the conduit and to abut the part. 19. The additively manufactured part of claim 18 , wherein the process by which the part is created further comprises an act of: controlling the feed rate and the printing rate to translate the unattached terminal end of the multistranded composite filament abutting the part laterally underneath the substantially rounded outlet to anchor the terminal end. 20. The additively manufactured part of claim 9 , wherein the process by which the part is created further comprises an act of: controlling a position of the deposition head and a build platen relative to one another by controlling a height of the substantially rounded outlet from a top of the part to be less than a diameter of the multistranded composite filament. 21. The additively manufactured part of claim 9 , wherein the process by which the part is created further comprises an act of: moving the deposition head and a build platen relative to one another in at least three d