Wire-Arc Additive Manufacturing: Unterschied zwischen den Versionen
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'''Wire-Arc Additive Manufacturing''' (WAAM) is based on a wire and an arc. This process enables the cost-efficient manufacturing of large-scale metal parts. | '''Wire-Arc Additive Manufacturing''' (kurz WAAM, dt. Lichtbogendrahtauftragsschweißen) is based on a wire and an arc. This process enables the cost-efficient manufacturing of large-scale metal parts. | ||
It is characterized by high build-up rates and low production costs. However, the process has certain disadvantages. The accuracy of the process and the achievable component complexity is worse than the one for [[L-PBF]] and other powder based processes. | It is characterized by high build-up rates and low production costs. However, the process has certain disadvantages. The accuracy of the process and the achievable component complexity is worse than the one for [[L-PBF]] and other powder based processes. | ||
[[Datei:robotbased_WAAM.jpg|600px|thumb|left|Robot-based Wire Arc Additive Manufacturing setup at Siemens AG]] | [[Datei:robotbased_WAAM.jpg|600px|thumb|left|Robot-based Wire Arc Additive Manufacturing setup at Siemens AG]] | ||
Version vom 16. September 2022, 12:56 Uhr
🚧 ❬Bitte ins Deutsche übersetzen.❭
Wire-Arc Additive Manufacturing (kurz WAAM, dt. Lichtbogendrahtauftragsschweißen) is based on a wire and an arc. This process enables the cost-efficient manufacturing of large-scale metal parts. It is characterized by high build-up rates and low production costs. However, the process has certain disadvantages. The accuracy of the process and the achievable component complexity is worse than the one for L-PBF and other powder based processes.
