System and method for forming integrated interfaces within a three-dimensionally printed object with different build materials

What is claimed: 1. An additive manufacturing system for producing three-dimensional objects with multiple materials comprising: a planar member; at least one ejector configured to eject drops of photopolymer material towards the planar member; a source of ultraviolet (UV) radiation; an extruder configured to extrude thermoplastic material towards the planar member; a leveling device; and a controller operatively connected to the at least one ejector, the source of UV radiation, and the extruder, the controller being configured to: operate at least one ejector in a plurality of ejectors to eject drops of a photopolymer material towards the planar member to form a perimeter portion that extends to a first predetermined height above a base portion so the perimeter portion and the base portion define a volume; operate the source of UV radiation to cure the drops of photopolymer material at least partially; operate the extruder to extrude a thermoplastic material to a second predetermined height within the volume defined by the base portion and the perimeter portion of the at least partially cured photopolymer material, the second predetermined height being less than the first predetermined height; operate the leveling device to remove a portion of the perimeter portion without engaging the thermoplastic material at the second predetermined height within the volume defined by the base portion and the perimeter portion; operate the at least one ejector to eject additional photopolymer material onto the thermoplastic material to form a surface over at least a portion of the thermoplastic material; and operate the source of UV radiation to cure the drops of photopolymer material and the additional photopolymer material. 2. The system of claim 1 , the controller being further configured to: operate the at least one ejector to form the perimeter portion with at least one surface that is positioned at a perpendicular angle with respect to a planar member that supports the base portion. 3. The system of claim 1 , the controller being further configured to: operate the at least one ejector to form the base portion with protrusions that extend from the base portion into the volume formed by the perimeter portion and the base portion; and operate the extruder to fill at least partially areas between the protrusions with the thermoplastic material. 4. The system of claim 1 , the controller being further configured to: operate the extruder to extrude a support material in an area adjacent to an external wall of the perimeter portion; operate the ejector to eject another support material over the extruded support material to form a surface over the extruded support material; and operate the ejector that ejects drops of photopolymer material to extend the perimeter portion over the surface formed over the other ejected support material. 5. The system of claim 1 further comprising: another extruder configured to extrude a support material; another ejector configured to eject drops of another support material, the ejected support material being different than the extruded support material; and the controller being operatively connected to the other extruder and the other ejector, the controller being further configured to: operate the other extruder to extrude a support material in an area adjacent to an external wall of the perimeter portion; operate the other ejector to eject another support material over the extruded support material to form a surface over the extruded support material; and operate the ejector that ejects drops of photopolymer material to extend the perimeter portion over the surface formed over the other ejected support material. 6. The system of claim 1 , the controller being further configured to: operate the extruder to form a first plurality of thermoplastic members having a first orientation and to form a second plurality of thermoplastic members having a second orientation that is different than the first orientation over the first plurality of thermoplastic members, the first plurality and the second plurality of thermoplastic members forming interstitial spaces between the thermoplastic members in the first plurality of thermoplastic members and the thermoplastic members in the second plurality of thermoplastic members. 7. The system of claim 5 , the controller being further configured to: operate the ejector to eject drops of photopolymer material into at least some of the interstitial spaces between the thermoplastic members in the first plurality of thermoplastic members and the thermoplastic members in the second plurality of thermoplastic members before forming the surface with the photopolymer material over the extruded thermoplastic material. 8. The system of claim 6 , the ejector being further configured to eject drops of photopolymer material have a diameter that is less than a width of the thermoplastic members in the first plurality and second plurality of thermoplastic members. 9. The printer of claim 7 , the controller being further configured to: operate the ejector to form a solid layer of photopolymer material within the structure formed by the first plurality of thermoplastic members and the second plurality of thermoplastic members. 10. The printer of claim 7 , the controller being further configured to: operate the extruder to form a solid layer of photopolymer material within the structure formed by the first plurality of thermoplastic members and the second plurality of thermoplastic members. 11. The system of claim 1 , the controller being further configured to: operate the at least one ejector to form the perimeter portion with at least one surface that is positioned at a non-perpendicular angle with respect to the planar member that supports the base portion.