Methods and apparatus for processing and dispensing material during additive manufacturing

We claim: 1. An additive manufacturing method for delivering a flowable material from a nozzle of a programmable computer numeric control (CNC) machine, the nozzle being configured to translate along a first axis, a second axis perpendicular to the first axis, and a third axis orthogonal to the first and second axes, the method comprising: actuating an extruder to form a flowable material; delivering the flowable material to a pump; sensing a pressure of the flowable material; and adjusting a speed of the extruder and a speed of the pump based on an increase or decrease in a rate of translation of the nozzle along one or more of the first, second, and third axes to deposit a bead of material having stable dimensions. 2. The additive manufacturing method of claim 1 , wherein actuating the extruder includes generating heat to melt material within the extruder. 3. The additive manufacturing method of claim 2 , wherein the heat is generated by rotating a screw within a barrel of the extruder. 4. The additive manufacturing method of claim 2 , wherein the heat is generated by at least one heater positioned adjacent a barrel of the extruder. 5. The additive manufacturing method of claim 3 , wherein the heat is generated by the rotating screw and by at least one heater positioned on an outer surface of the barrel. 6. The additive manufacturing method of claim 5 , wherein the at least one heater includes a plurality of heaters disposed along a length of the barrel. 7. The additive manufacturing method of claim 1 , wherein the pressure is sensed at an inlet of the pump. 8. The additive manufacturing method of claim 1 , wherein the flowable material is a thermoplastic material. 9. The additive manufacturing method of claim 1 , wherein the speed of the pump is based on the sensed pressure and the rate of translation of the nozzle along one or more of the first, second, and third axes, and the speed of the extruder is based on a predetermined proportion of the speed of the pump. 10. The additive manufacturing method of claim 1 , wherein the speed of the pump is further adjusted based on the sensed pressure, and wherein the speed of the speed of the extruder and the speed of the pump are adjusted at the same time. 11. The additive manufacturing method of claim 10 , wherein the speed of the extruder is adjusted by an amount that is proportional to the adjusted speed of the pump. 12. An additive manufacturing method comprising: actuating an extruder of an additive manufacturing machine to extrude a flowable material to a gear pump, wherein actuating the extruder includes rotating an extruder screw of the extruder at a first speed; actuating the gear pump to convey the flowable material to an applicator head, wherein actuating the gear pump includes rotating one or more gears of the gear pump at a second speed; delivering the material from the applicator head onto a surface; moving the applicator head along at least one of a plurality of axes at a first velocity; and modifying the first speed and the second speed, by a controller, based on an increase or a decrease in the first velocity to deposit a bead of material having stable dimensions. 13. The method of claim 12 , further including determining a flow rate of the material delivered from the applicator head, and adjusting at least one of the first speed or the second speed based on the flow rate. 14. The method of claim 12 , further including sensing a pressure at an inlet of the gear pump, and modifying at least one of the first speed or the second speed based on the pressure. 15. The method of claim 12 , wherein the second speed is modified based on the first velocity, and the first speed is modified based on the second speed. 16. An additive manufacturing method comprising: operating an extruder of an additive manufacturing machine at a first speed to extrude a flowable material to a gear pump; operating the gear pump at a second speed to convey the flowable material to a nozzle; depositing the flowable material through the nozzle onto a surface; moving the nozzle along at least one of a plurality of axes; adjusting the second speed based on an increase or decrease in a rate of the movement of the nozzle; and adjusting the first speed based on the adjusted second speed to deposit a bead of material having stable dimensions. 17. The method of claim 16 , wherein the first speed and the second speed are synchronized by a predetermined proportion. 18. The method of claim 16 , further including sensing the pressure of the flowable material, and adjusting at least one of the first speed or the second speed based on the pressure of the flowable material. 19. The method of claim 16 , further including adjusting at least one of the first speed or the second speed based on a flow rate of the flowable material.