Additive manufacturing system with extended printing volume, and methods of use thereof

The invention claimed is: 1. An additive manufacturing system for printing a three-dimensional part, the system comprising: a build environment having a first length; a gantry located within the build environment; a print head attached to the gantry, wherein the gantry is configured to move the print head in a plane substantially parallel to a print plane, wherein a part material is extruded in the print plane to print the three-dimensional part in a layer-by-layer manner, wherein the print plane is non-horizontal; a receiving surface configured to receive the printed part material from the print head to build the three-dimensional part in the layer-by-layer manner to a selected part length where the part length is greater than the first length of the build environment; and a drive mechanism configured to index at least a portion of the receiving surface substantially parallel to a printing axis such that the receiving surface and at least a portion of the three-dimensional part move out of the build environment as the three-dimensional part is being built in the layer-by layer manner. 2. The system of claim 1 , wherein the build environment is unheated. 3. The system of claim 1 , wherein the build environment comprises one or more heaters configured to heat the build environment proximate the build plane. 4. The system of claim 1 , wherein the build environment comprises a chamber having chamber walls and a port, and wherein the indexing moves the receiving surface and at least a portion of the three-dimensional part through the port. 5. The system of claim 1 , wherein the build environment comprises a plurality of chambers in series, and wherein the indexing moves the receiving surface and at least a portion of the three-dimensional part through each of the plurality of chambers, wherein each of the plurality of chambers is configured to be heated to different temperatures to define a step-down temperature gradient. 6. The system of claim 1 , wherein the printing axis comprises a substantially non-vertical printing axis. 7. The system of claim 1 , wherein the drive mechanism comprises a rotatable belt configured to accept and support the extruded material as the three-dimensional part is printed in the layer-by-layer manner. 8. The system of claim 7 , and further comprising one or more post-printing processing stations, wherein the rotatable belt extends through the one or more post-printing processing stations. 9. A method of print a three-dimensional part in a layer by layer manner, the method comprising: providing a build environment having a first length; providing a gantry located within the build environment and carrying a print head configured to extrude molten material in a series of roads to form each layer of the three-dimensional part; heating the material to a molten state; extruding the molten material in the series of roads to form one or more layers of the three-dimensional part by causing the gantry to move the print head in the series of roads proximate the substantially non-horizontal print plane wherein the plurality of layers is supported by a receiving surface; indexing the receiving surface substantially a thickness of a layer of the three-dimensional part; and repeating the extruding step and the indexing step until the three-dimensional part is printed wherein a length of the three-dimensional part is greater than the first length of the build environment. 10. The method of claim 9 and wherein the build environment is subject to ambient conditions. 11. The method of claim 9 and further comprising: heating the build environment. 12. The method of claim 9 and wherein the receiving surface comprises a rotatable belt. 13. The method of claim 9 and wherein the receiving surface comprises a starter piece having a surface substantially parallel to the printing plane. 14. An additive manufacturing system for printing a three-dimensional part, the system comprising: a build environment having a first length; a gantry located within the build environment; a print head attached to the gantry, wherein the gantry is configured to move the print head in a plane substantially parallel to a print plane, wherein a part material is extruded in the print plane to print the three-dimensional part in a layer-by-layer manner, wherein the print plane is non-horizontal; a closed looped belt configured to receive the printed part material from the print head to build the three-dimensional part in the layer-by-layer manner to a selected part length where the part length is greater than the first length of the build environment; and a drive roller configured to index at least an upper portion of the closed looped belt substantially parallel to a printing axis such that the upper portion and at least a portion of the three-dimensional part move out of the build environment as the three-dimensional part is being built in the layer-by layer manner. 15. The system of claim 14 , wherein the build environment is unheated. 16. The system of claim 14 , wherein the build environment comprises one or more heaters configured to heat the build environment proximate the build plane. 17. The system of claim 14 , wherein the build environment comprises a chamber having chamber walls and a port, and wherein the indexing moves the receiving surface and at least a portion of the three-dimensional part through the port. 18. The system of claim 14 , wherein the build environment comprises a plurality of chambers in series, and wherein the indexing moves the receiving surface and at least a portion of the three-dimensional part through each of the plurality of chambers, wherein each of the plurality of chambers is configured to be heated to different temperatures to define a step-down temperature gradient. 19. The system of claim 14 , wherein the printing axis comprises a substantially non-vertical printing axis. 20. The system of claim 14 , and further comprising one or more post-printing processing stations, wherein the rotatable belt extends through the one or more post-printing processing stations.