Additive manufacturing system and method of operation

What is claimed is: 1 . An additive manufacturing system comprising: a powder bed including a mixed powder; and a first vibration inducing device in communication with the powder bed for packing the mixed powder. 2 . The additive manufacturing system set forth in claim 1 wherein the first vibration inducing device is a sonic emitter. 3 . The additive manufacturing system set forth in claim 1 further comprising: a build table supporting the powder bed. 4 . The additive manufacturing system set forth in claim 3 wherein the first vibration inducing device is secured to the build table. 5 . The additive manufacturing system set forth in claim 4 further comprising: the build table including a substantially horizontal plate, a first sidewall, and an opposing second sidewall projecting upward from the plate; and a second vibration inducing device secured to the second sidewall, and the first vibration inducing device being secured to the first side wall. 6 . The additive manufacturing system set forth in claim 5 wherein the first and second vibration inducing devices are sonic emitters. 7 . The additive manufacturing system set forth in claim 5 wherein the first sidewall is disposed between the powder bed and the first vibration inducing device and the second sidewall is disposed between the powder bed and the second vibration inducing device. 8 . The additive manufacturing system set forth in claim 3 further comprising: a leveling arm constructed and arranged to level the powder bed. 9 . The additive manufacturing system set forth in claim 8 wherein the build table is constructed and arranged to move in a z-coordinate direction and the leveling arm moves in an x-coordinate direction. 10 . The additive manufacturing system set forth in claim 9 wherein the first and second sidewalls are spaced from one another in the x-coordinate direction. 11 . The additive manufacturing system set forth in claim 10 wherein the first and second vibration inducing devices are ultrasonic emitters producing opposing ultrasonic waves through the powder bed. 12 . The additive manufacturing system set forth in claim 3 further comprising: a spreader for distributing the mixed powder on the build table; and an energy gun for selectively melting the powder bed. 13 . The additive manufacturing system set forth in claim 1 wherein the vibration inducing device is in the powder bed. 14 . The additive manufacturing system set forth in claim 8 wherein the vibration inducing device is integral to the leveling aim and the leveling arm is a roller. 15 . A method of operating an additive manufacturing system comprising the steps of: sending vibration waves through a powder bed; and compacting the powder bed by moving small particles of the powder bed into voids created by large particles of the powder bed via the vibration waves. 16 . The method set forth in claim 15 comprising the further step of: leveling the powder bed. 17 . The method set forth in claim 16 wherein a roller is used to level the powder bed. 18 . The method set forth in claim 17 wherein the vibration waves are emitted by the roller and the powder bed is compacted at the same time the powder bed is leveled. 19 . The method set forth in claim 16 comprising the further steps of: compacting the powder bed before leveling; moving a build table downward by generally a layer thickness of a work product; repeating the steps for a next successive layer; and wherein the work product is a turbine blade. 20 . The method set forth in claim 15 further comprising the step of: sending second vibration waves that oppose the vibration waves through the powder bed.