Seam concealment for three-dimensional models

The invention claimed is: 1. An extrusion-based digital manufacturing system for building a three-dimensional part, the system comprising: a computer programmed to: generate a first tool path for a sliced layers of a digital representation of a three-dimensional model; adjust the first tool path to a second tool path that is configured to substantially conceal a seam at a perimeter of the corresponding layer of the three-dimensional part; and generate instructions corresponding to the second tool path; a platen; an extrusion head configured to move in a build plane; and a controller configured to direct the extrusion head to deposit a material to build the three-dimensional model in a layer-by-layer manner in a build plane tool path in the build plane corresponding to the second tool path based on the instructions, wherein the build plane tool path comprises: an outgoing segment; a contour segment having a first end extending from the outgoing segment, and a second end; and an incoming segment extending from the second end of the contour segment, wherein the incoming segment overlaps a portion of the outgoing segment to define an interior region that is enclosed by the build plane tool path, and wherein the outgoing segment and the incoming segment are each partially located within the enclosed interior region. 2. The extrusion-based digital manufacturing system of claim 1 , and further comprising a heatable environment in which the three-dimensional model is built in the layer-by-layer manner. 3. The extrusion-based digital manufacturing system of claim 2 , wherein the heatable environment comprises an enclosed build chamber. 4. The extrusion-based digital manufacturing system of claim 1 , wherein the computer is configured to transmit the instructions to the controller. 5. The extrusion-based digital manufacturing system of claim 1 , wherein the outgoing segment, the contour segment, and the incoming segment are each generated based on a predicted road width for the deposited material. 6. The extrusion-based digital manufacturing system of claim 5 , wherein the predicted road width ranges from about 250 micrometers to about 1,020 micrometers. 7. An extrusion-based digital manufacturing system for building a three-dimensional part, the system comprising: a computer programmed to: generate a first tool path for a sliced layers of a digital representation of a three-dimensional model; adjust the first tool path to a second tool path that is configured to substantially conceal a seam at a perimeter of the corresponding layer of the three-dimensional part; and generate instructions corresponding to the second tool path; a surface configured to support the three-dimensional part; an extrusion head configured to move in a build plane; and a controller configured to direct the extrusion head to deposit a material to build the three-dimensional model in a layer-by-layer manner in a build plane tool path in the build plane corresponding to the second tool path based on the instructions, wherein the build plane tool path comprises: a segment comprising a perimeter of the build plane tool path in a layer, the segment further comprising a first end portion and a second end portion wherein the first end portion and second end portion overlap within an interior region defined by the segment comprising the perimeter of the build plane tool path in the layer. 8. The extrusion-based digital manufacturing system of claim 7 and wherein the surface and the extrusion head move relative to each other in a direction substantially perpendicular to the build plane such that the controller can direct the extrusion head to deposit successive layers to form the three-dimensional model. 9. The extrusion-based digital manufacturing system of claim 7 , and further comprising a heatable environment in which the three-dimensional model is built in the layer-by-layer manner. 10. The extrusion-based digital manufacturing system of claim 9 , wherein the heatable environment comprises an enclosed build chamber. 11. The extrusion-based digital manufacturing system of claim 7 , and further comprising a computer configured to transmit the instructions to the controller. 12. The extrusion-based digital manufacturing system of claim 7 , wherein a segment comprising a perimeter having the first and second end segments is generated based on a predicted road width for the deposited material. 13. The extrusion-based digital manufacturing system of claim 12 , wherein the predicted road width ranges from about 250 micrometers to about 1,020 micrometers.