Wire Arc Additive Manufacturing Waam Process

How does wire arc additive manufacturing work.

Wire arc additive manufacturing waam process. Unlike the more common metal powder am processes waam works by melting metal wire using an electric arc as the heat source. Waam can be achieved with various energy sources including gas metal arc welding gmaw 2 gas tungsten arc welding gtaw 1 and plasma arc welding paw 4. One of the advantages of waam technology is that it can be implemented using off the shelf welding equipment which makes it an appealing option for job shops that don t want to invest in an expensive powder bed system. Welding power source torches and.

Waam is a variation of a direct energy deposition technology and uses an arc welding process to 3d print metal parts. En la etapa de diseño las piezas. Wire arc additive manufacturing waam the combination of an electric arc as heat source and wire as feedstock is referred to as waam and has been investigated for am purposes since the 1990s although the first patent was filed in 1925. Waam hardware currently uses standard off the shelf welding equipment.

Wire and arc additive manufacturing waam is a direct energy deposition process that uses wire feedstock and an electric arc as the energy source. Wire arc additive manufacturing waam uses an electric arc as a heat source and wire rather than powder as feedstock. This process exists alongside other high deposition rate metal am technologies such as powder and wire based ded. The wire arc additive manufacturing waam process used to manufacture aluminum parts has a number of variables.

Diseño análisis y desarrollo de una célula fabricación basada en tecnología aditiva waam par piezas de alto valor añadido. Academia working closely with industry to mature the wire arc additive manufacturing process targeting process qualification and full industrial adoption of a processing technique which is revolutionising the world of manufacturing.