Matches in DBpedia 2016-04 for { ?s ?p "Ultrasonic Consolidation (UC), sometimes referred to as Ultrasonic Additive Manufacturing (UAM), is an additive manufacturing technique based on the ultrasonic welding of metal foils and CNC contour milling. High-frequency (typically 20,000 hertz) ultrasonic vibrations are locally applied to metal foil materials, held together under pressure, to create a solid-state weld. CNC contour milling is then used to create the required shape for the given layer. This process is then repeated until a solid component has been created or a feature repaired/added to a component. UC has the ability to join dissimilar metal materials of different thicknesses and allows the embedment of fibre materials at relatively low temperature, (typically less than 50% of the metal matrix melting temperature), and pressure into solid metal matrices."@en }
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- Ultrasonic_consolidation abstract "Ultrasonic Consolidation (UC), sometimes referred to as Ultrasonic Additive Manufacturing (UAM), is an additive manufacturing technique based on the ultrasonic welding of metal foils and CNC contour milling. High-frequency (typically 20,000 hertz) ultrasonic vibrations are locally applied to metal foil materials, held together under pressure, to create a solid-state weld. CNC contour milling is then used to create the required shape for the given layer. This process is then repeated until a solid component has been created or a feature repaired/added to a component. UC has the ability to join dissimilar metal materials of different thicknesses and allows the embedment of fibre materials at relatively low temperature, (typically less than 50% of the metal matrix melting temperature), and pressure into solid metal matrices.".
- Q7880637 abstract "Ultrasonic Consolidation (UC), sometimes referred to as Ultrasonic Additive Manufacturing (UAM), is an additive manufacturing technique based on the ultrasonic welding of metal foils and CNC contour milling. High-frequency (typically 20,000 hertz) ultrasonic vibrations are locally applied to metal foil materials, held together under pressure, to create a solid-state weld. CNC contour milling is then used to create the required shape for the given layer. This process is then repeated until a solid component has been created or a feature repaired/added to a component. UC has the ability to join dissimilar metal materials of different thicknesses and allows the embedment of fibre materials at relatively low temperature, (typically less than 50% of the metal matrix melting temperature), and pressure into solid metal matrices.".