Particle separator for an additive manufacturing system and method of operation

What is claimed is: 1. A particle separator for an additive manufacturing system comprising: a housing for flow of a mixed powder having particles of variable weight, the housing having an inner wall, an outer wall, and a bend portion generally constructed by the inner and outer walls; and first and second offtake holes in the housing and disposed downstream of the bend portion with the first offtake hole located closer to the inner wall than the second offtake hole and the second offtake hole located closer to the outer wall than the first offtake hole. 2. The particle separator set forth in claim 1 wherein the first offtake hole receives particles having a lighter weight than particles received by the second offtake hole. 3. The particle separator set forth in claim 2 wherein the flow area of the first offtake hole is smaller than the flow area of the second offtake hole and the first offtake hole receives smaller particles than the second offtake hole. 4. The particle separator set forth in claim 3 wherein the particles have substantially equivalent densities. 5. The particle separator set forth in claim 2 further comprising: a turning vane disposed inside the housing and between the inner and outer walls generally at the bend portion. 6. The particle separator set forth in claim 2 further comprising: an air supply device constructed and arranged to entrain the mixed powder into an airflow flowing into the housing. 7. The particle separator set forth in claim 6 wherein the air supply device is an air compressor located upstream of the housing. 8. The particle separator set forth in claim 7 further comprising: a hopper located between the air compressor and the housing for dispensing the mixed powder into the airflow. 9. The particle separator set forth in claim 2 further comprising: first and second conduits associated with the respective first and second offtake holes; and first and second control valves in the respective first and second conduits for controlling the flow of separated particles into a particle spreader. 10. The particle separator set forth in claim 5 further comprising: a feed return hopper; and an outlet of the housing disposed downstream of the first and second offtake holes and communicating with the feed return hopper for receipt of particles not accepted by the first and second offtake holes. 11. The particle separator set forth in claim 5 further comprising: a curved flow passage defined by the housing and including a longitudinal first passage portion defined in-part between the turning vane and the inner wall and a longitudinal second passage portion defined in-part between the turning vane and the outer wall; and wherein the first passage portion is shorter than the second passage portion when extrapolated along an upstream direction from the turning vane. 12. The particle separator set forth in claim 11 further comprising: a second turning vane disposed between the turning vane and the outer wall; a third offtake hole disposed between the turning vane and the second turning vane; and a third passage portion of the curved flow passage defined in-part between the turning vane and the second turning vane and located between the first and second passage portions. 13. An additive manufacturing system comprising: a build table; a hopper; a particle separator constructed and arranged to receive mixed powder from the hopper; a spreader constructed and arranged to dispense separated particles of the mixed powder, and from the particle separator, onto the build table; an energy gun constructed and arranged to melt the separated particles dispensed on the build table, and an electric controller for controlling movement of the build table along at least a z-coordinate direction, controlling a dispensing movement of the spreader along an x-y coordinate plane, and controlling dispensing of specific separated particles from the particle separator and to the spreader. 14. The additive manufacturing system set forth in claim 13 further comprising: a roller constructed and arranged to roll across a powder bed placed upon the build table by the spreader. 15. The additive manufacturing system set forth in claim 13 wherein the energy gun is a laser. 16. The additive manufacturing system set forth in claim 13 wherein the energy gun is an electron beam gun. 17. A method of operating an additive manufacturing system comprising the steps of: entraining a mixed powder in an airflow; separating the mixed powder into first particles having a low pre-specified particle weight range and second particles having a high pre-specified particle weight range via an aerodynamic particle separator; separately controlling the flow of the respective first and second particles into a spreader; controllably dispensing the respective first and second particles onto a build table in a pre-specified pattern; and melting the pre-specified pattern with an energy gun. 18. The method of operating the additive manufacturing system set forth in claim 17 comprising the further step of: controlling material composition of a work product by varying the flow rates of the first and second particles depending on a specific location of the pre-specified pattern. 19. The method of operating the additive manufacturing system set forth in claim 17 comprising the further step of: controlling a surface roughness of a work product by varying the flow rates of the first and second particles.