Abstract: Various embodiments include an acoustic-energy deposition and repair system that includes at least one Directed Acoustic Energy Deposition (DAED) tool configured to apply acoustic energy to feedstock material in at least one of three vibrational modes; and a drive system to move the DAED tool in at least one of three-coordinate positions. In various examples, the acoustic-energy deposition and repair system further includes at least one in-situ metrology tool mounted proximal to the DAED tool to measure a grain size of deposited material. Other methods, devices, apparatuses, and systems are disclosed.

Abstract: Various embodiments include an acoustic-energy deposition and repair system that includes at least one Directed Acoustic Energy Deposition (DAED) tool configured to apply acoustic energy to feedstock material in at least one of three vibrational modes; and a drive system to move the DAED tool in at least one of three-coordinate positions. In various examples, the acoustic-energy deposition and repair system further includes at least one in-situ metrology tool mounted proximal to the DAED tool to measure a grain size of deposited material. Other methods, devices, apparatuses, and systems are disclosed.

Abstract: Ultrasonic filament modeling systems and methods may be utilized to achieve room-temperature 3-D printing of solid (>95%) metal materials. A vibrating tool is applied to a metal filament to form a voxel, inducing mechanical deformation as well as inter-and intra-layer mass transport. Desired structures may be built on a voxel-by-voxel basis. Additionally, by varying the applied ultrasonic energy, the microstructure of the resulting structure may be controlled.

Abstract: Various embodiments include an acoustic-energy deposition and repair system that includes at least one Directed Acoustic Energy Deposition (DAED) tool configured to apply acoustic energy to feedstock material in at least one of three vibrational modes; and a drive system to move the DAED tool in at least one of three-coordinate positions. In various examples, the acoustic-energy deposition and repair system further includes at least one in-situ metrology tool mounted proximal to the DAED tool to measure a grain size of deposited material. Other methods, devices, apparatuses, and systems are disclosed.

Abstract: Ultrasonic filament modeling systems and methods may be utilized to achieve room-temperature 3-D printing of solid (>95%) metal materials. A vibrating tool is applied to a metal filament to form a voxel, inducing mechanical deformation as well as inter-and intra-layer mass transport. Desired structures may be built on a voxel-by-voxel basis. Additionally, by varying the applied ultrasonic energy, the microstructure of the resulting structure may be controlled.

Abstract: Systems and methods for repairing a surface defect in a metallic substrate can have a transducer that generates acoustic energy and an acoustic energy coupling tool connected to the transducer. The acoustic energy coupling tool receives the acoustic energy from the transducer and oscillates at a frequency corresponding to a frequency of the acoustic energy. A filler material is provided within the surface defect and the oscillation of the acoustic energy coupling tool causes a deforming impact of the acoustic energy coupling tool with the filler material within the surface defect, such that the filler material conforms to at least a portion of an internal surface of the surface defect. Additionally, the acoustic energy coupling tool is used to irradiate the filler material while it is being deformed with the acoustic energy.

Abstract: Ultrasonic filament modeling systems and methods may be utilized to achieve room-temperature 3-D printing of solid (>95%) metal materials. A vibrating tool is applied to a metal filament to form a voxel, inducing mechanical deformation as well as inter-and intra-layer mass transport. Desired structures may be built on a voxel-by-voxel basis. Additionally, by varying the applied ultrasonic energy, the microstructure of the resulting structure may be controlled.