System and method for removing support structure from three-dimensional printed objects using microwave energy

What is claimed is: 1. A method for producing a three-dimensional object comprising: operating a transport with a controller to move a platen to a first position; operating at least two ejector heads located opposite the first position with the controller to eject drops of a first material having a first dielectric loss factor with a first ejector head of the at least two ejector heads towards the platen at the first position to form an object on the platen and to eject drops of a second material having a second dielectric loss factor with a second ejector head of the at least two ejector heads towards the platen at the first position to form a support for the object on the platen, the second dielectric loss factor being greater than the first dielectric loss factor; operating the transport with the controller to move the platen from the first position to a second position; and operating a microwave radiator opposite the second position with the controller to irradiate the object and the support on the platen at the second position with microwave energy to heat the support to a temperature that changes the support from a solid phase to a liquid phase to enable the support in the liquid phase to flow away from the object. 2. The method of claim 1 , the operation of the second ejector head of the at least two ejector heads further comprising: operating the second ejector head of the at least two other ejector heads with the controller to eject drops of the second material having the second dielectric loss factor to form first portions of the support for the object on the platen with the second material and to eject drops of a third material having a third dielectric loss factor that is greater than the second dielectric loss factor towards the platen to form second portions of the support with the third material to enable the microwave energy from the microwave radiator to change the second portions of the support from the solid phase to the liquid phase before the first portions of the support begin to change from the solid phase to the liquid phase. 3. The system of claim 2 , the operation of the at least two ejector heads with the controller further comprising: operating the second ejector head of the at least two ejector heads to form the first portions of the support with the second material on exterior areas of the object on the platen and to form the second portions of the support with the third material on interior areas of the object on the platen. 4. The method of claim 1 further comprising: operating the transport with the controller to move the platen through a first opening in a housing to position the platen at the second position that is opposite the microwave radiator. 5. The method of claim 4 further comprising: collecting the support in the liquid phase on a floor of the housing having the first opening. 6. The method of claim 5 further comprising: evacuating the support in the liquid phase from the floor of the housing through a drain in the floor of the housing. 7. The method of claim 6 further comprising: pumping the support in the liquid phase through the drain with a pump operatively connected to the drain. 8. The method of claim 4 further comprising: operating the transport with the controller to move the platen through a second opening in the housing to exit the platen from the housing in response to an expiration of a predetermined time period following activation of the microwave radiator. 9. The method of claim 4 further comprising: operating the transport with the controller to move the platen through a second opening in the housing to exit the platen from the housing in response to a signal generated by a non-contact temperature sensor indicating a predetermined temperature of the object has been reached. 10. A method for producing a three-dimensional object comprising: operating a transport with a controller to move a platen to a first position; operating a first ejector head of at least two ejector heads located opposite the first position with the controller to eject drops of a first material having a first dielectric loss factor towards the platen at the first position to form an object on the platen; operating a second ejector head of the at least two other ejector heads with the controller to eject drops of the second material having the second dielectric loss factor that is greater than the first dielectric loss factor to form first portions of the support for the object on the platen with the second material and to eject drops of a third material having a third dielectric loss factor that is greater than the second dielectric loss factor towards the platen to form second portions of the support with the third material; operating the transport with the controller to move the platen from the first position to a second position; and operating a microwave radiator opposite the second position with the controller to irradiate the object and the support on the platen at the second position with microwave energy to heat the support to a temperature that changes the second portions of the support from a solid phase to a liquid phase before the first portions of the support begin to change from the solid phase to the liquid phase. 11. The method of claim 10 , the operation of the at least two ejector heads with the controller further comprising: operating the second ejector head of the at least two ejector heads to form the first portions of the support with the second material on exterior areas of the object on the platen and to form the second portions of the support with the third material on interior areas of the object on the platen. 12. The method of claim 10 further comprising: operating the transport with the controller to move the platen through a first opening in a housing to position the platen at the second position that is opposite the microwave radiator. 13. The method of claim 12 further comprising: collecting the first portions and the second portions of the support in the liquid phase on a floor of the housing having the first opening. 14. The method of claim 5 further comprising: evacuating the first portions and the second portions of the support in the liquid phase from the floor of the housing through a drain in the floor of the housing. 15. The method of claim 6 further comprising: pumping the first portions and the second portions of the support in the liquid phase through the drain with a pump operatively connected to the drain. 16. The method of claim 4 further comprising: operating the transport with the controller to move the platen through a second opening in the housing to exit the platen from the housing in response to an expiration of a predetermined time period following activation of the microwave radiator. 17. The method of claim 4 further comprising: operating the transport with the controller to move the platen through a second opening in the housing to exit the platen from the housing in response to a signal generated by a non-contact temperature sensor indicating a predetermined temperature of the object has been reached. 18. A method for producing a three-dimensional object comprising: operating a transport with a controller to move a platen to a first position; operating at least two ejector heads located opposite the first position with the controller to eject drops of a first material having a first dielectric loss factor with a first ejector head of the at least two ejector heads towards the platen at the first position to form an object o