Abstract: Additive manufacturing processes, systems and three-dimensional articles include the formation of voxels and/or portions of three-dimensional articles with different properties relative to other voxels and/or portions. The processes generally include changing one or more laser beam parameters including power level, exposure time, hatch spacing, point distance, velocity, and energy density during the formation of selected voxels and/or portions of the three-dimensional articles. Also disclosed are processes that include an additive manufacturing process that provides localized secondary heat treatment of certain voxels and/or regions at a temperature below the melting point of the three-dimensional article but high enough to effect a localized property change.

Abstract: Additive manufacturing processes, systems and three-dimensional articles include the formation of voxels and/or portions of three-dimensional articles with different properties relative to other voxels and/or portions. The processes generally include changing one or more laser beam parameters including power level, exposure time, hatch spacing, point distance, velocity, and energy density during the formation of selected voxels and/or portions of the three-dimensional articles. Also disclosed are processes that include an additive manufacturing process that provides localized secondary heat treatment of certain voxels and/or regions at a temperature below the melting point of the three-dimensional article but high enough to effect a localized property change.

Abstract: Metal ceramic composites, or metallic matrix composites (MMCs), may be formed by additive manufacturing (AM) processing of powder beds including a plurality of metallic particles of one or more metals and a plurality of ceramic particles of one or more ceramic materials. The presence of the ceramic particles during the AM process changes the optical properties and/or thermal conductivity of the powder bed since the ceramic particles have markedly different optical properties and/or thermal conductivity relative to metal particles. These optical properties and/or thermal conductivities of the ceramic particles can be tailored in different areas within a given layer of the powder bed to change energy absorption of an energy beam in the different areas. The resulting MMCs exhibit significantly improved performance characteristics, including increases in strength properties, while maintaining ductility and improvement of resistance to pitting and crevice corrosion, among others characteristics.

Abstract: Additive manufacturing processes, systems and three-dimensional articles include the formation of voxels and/or portions of three-dimensional articles with different properties relative to other voxels and/or portions. The processes generally include changing one or more laser beam parameters including power level, exposure time, hatch spacing, point distance, velocity, and energy density during the formation of selected voxels and/or portions of the three-dimensional articles. Also disclosed are processes that include an additive manufacturing process that provides localized secondary heat treatment of certain voxels and/or regions at a temperature below the melting point of the three-dimensional article but high enough to effect a localized property change.