Add to ORKGA closed-loop approach based on integrated computational material engineering was used to design, fabricate and characterize an Al–1.5Cu–0.8Sc–0.4Zr (wt%) alloy for laser powder bed fusion additive manufacturing (AM). Finalization of composition and prediction of solidification behavior and mechanical properties were done using calculation of phase diagrams (CALPHAD) and analytical tools. The microstructure of the printed alloy in as-built condition consisted of crack-free regions with fine-equiaxed grains which was consistent with CALPHAD results. Yield strength (YS) of ~349 ± 8 MPa was also in more than 90% agreement with predicted YS. The findings demonstrate an efficient methodology for application-based alloy design for AM
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...
A closed-loop approach based on integrated computational material engineering was used to design, fa...
Aluminum alloys are key materials in additive manufacturing (AM) technologies thanks to their low de...
Additive manufacturing (AM) of metallic alloys for structural and functional applications has attrac...
Metal additive manufacturing, or 3D printing, has the potential to be an incredibly disruptive techn...
Starting early 2015, the fusion-based additive manufacturing of Al alloys has been developing at an ...
The increasing potential for additive manufacturing technology continuously drives the need for prin...
Additive manufacturing (AM) of metallic alloys for structural and functional applications has attrac...
The increasing potential for additive manufacturing technology continuously drives the need for prin...
Additive manufacturing (AM), often termed 3D printing of metals, is emerging as a new and innovative...
Additive manufacturing (AM) of metallic alloys for structural and functional applications has attrac...
Additive manufacturing (AM), in particular the technology called laser powder bed fusion (LPBF), is ...
This thesis focuses on developing the laser powder bed fusion process of an Al-Cu alloy reinforced w...
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...
A closed-loop approach based on integrated computational material engineering was used to design, fa...
Aluminum alloys are key materials in additive manufacturing (AM) technologies thanks to their low de...
Additive manufacturing (AM) of metallic alloys for structural and functional applications has attrac...
Metal additive manufacturing, or 3D printing, has the potential to be an incredibly disruptive techn...
Starting early 2015, the fusion-based additive manufacturing of Al alloys has been developing at an ...
The increasing potential for additive manufacturing technology continuously drives the need for prin...
Additive manufacturing (AM) of metallic alloys for structural and functional applications has attrac...
The increasing potential for additive manufacturing technology continuously drives the need for prin...
Additive manufacturing (AM), often termed 3D printing of metals, is emerging as a new and innovative...
Additive manufacturing (AM) of metallic alloys for structural and functional applications has attrac...
Additive manufacturing (AM), in particular the technology called laser powder bed fusion (LPBF), is ...
This thesis focuses on developing the laser powder bed fusion process of an Al-Cu alloy reinforced w...
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...
Abstract: A key-factor for the industrial implementation of beam-based additive manufacturing techno...