Abstract: Various implementations include systems and methods for simultaneously applying an electric field and localized energy from an energy source to ceramic particles on a layer by layer basis to form a ceramic workpiece using additive manufacturing. The workpiece may be freely removed from the unsintered ceramic particles. In some implementations, the workpiece is partially densified when removed from the unsintered ceramic particles, but it may be heated until fully densified. According to some implementations, these systems and methods remove or reduce the need for binders and reduce manufacturing time.

Abstract: Various implementations include systems and methods for simultaneously applying an electric field and localized energy from an energy source to ceramic particles on a layer by layer basis to form a ceramic workpiece using additive manufacturing. The workpiece may be freely removed from the unsintered ceramic particles. In some implementations, the workpiece is partially densified when removed from the unsintered ceramic particles, but it may be heated until fully densified. According to some implementations, these systems and methods remove or reduce the need for binders and reduce manufacturing time.

Abstract: Methods of producing three-dimensional alloy workpieces are described herein, which can comprise: producing a precursor workpiece on a layer-by-layer basis by depositing a layer of a mixed powder, the mixed powder comprising an elemental powder and a second powder; melting at least a portion of the elemental powder by directing an energy field onto a portion of the layer; and repeating the deposing and melting steps to form the precursor workpiece from a plurality of layers. The precursor workpiece can comprise a dispersed phase and a continuous phase, the dispersed phase being dispersed within the continuous phase, the dispersed phase comprising a plurality of discrete regions comprising the second powder, and the continuous phase comprising the melted elemental powder. The methods can further comprise heating the precursor workpiece to homogenize the continuous phase and the dispersed phase, thereby forming the three-dimensional alloy workpiece comprising a continuous alloy phase.