Additive Manufacturing: some dreams, some nightmares - Difference between revisions of "Auricchio 2023a"

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== Abstract ==

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Laser-based Powder Bed Fusion of Metals (PBF-LB/M) is an additive manufacturing technology suitable for producing metal components with complex geometries and remarkable mechanical properties and performances. However, a widespread adoption of this technology in many industrial context is yet hindered due to the high stochasticity of the process. In fact, the complex process-structure-property relationships occurring in PBF-LB/M are today not yet fully understood. Therefore, suitable physical and numerical models need to be developed to shed light on these complex phenomena to boost a broader adoption of AM technologies in industrial applications. It is well known for example that the elastic behavior of lattice structures is dramatically underestimated when computed on the as-designed geometry. Furthermore, due to the inherent variability of PBF-LB/M process parameters, several sources of uncertainty hinder a full understanding of the complex process-structure-property relationships. In the presentation we will highlights some of the interesting applications open by the power of AM but also some limitations due the problems highlighted above.

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~~== Full document ==~~

<pdf>Media:Draft_Sanchez Pinedo_150320887-9952-document.pdf</pdf>

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==Video==

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{{#evt:service=cloudfront|id=340517|alignment=center|filename=Auricchio_complas1-2.mp4}}

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{{#evt:service=cloudfront|id=340518|alignment=center|filename=Auricchio_complas2-2.mp4}}

Latest revision as of 10:51, 18 January 2024

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 == Abstract ==
-Laser-based Powder Bed Fusion of Metals (PBF-LB/M) is an additive manufacturing technology suitable for producing metal components with complex geometries and remarkable mechanical properties and performances. However, a widespread adoption of this technology in many industrial context is yet hindered due to the high stochasticity of the process. In fact, the complex process-structure-property relationships occurring in PBF-LB/M are today not yet fully understood. Therefore, suitable physical and numerical models need to be developed to shed light on these complex phenomena to boost a broader adoption of AM technologies in industrial applications. It is well known for example that the elastic behavior of lattice structures is dramatically underestimated when computed on the as-designed geometry. Furthermore, due to the inherent variability of PBF-LB/M process parameters, several sources of uncertainty hinder a full understanding of the complex process-structure-property relationships. In the presentation we will highlights some of the interesting applications open by the power of AM but also some limitations due the problems highlighted above.
-== Full document ==
 <pdf>Media:Draft_Sanchez Pinedo_150320887-9952-document.pdf</pdf>
+==Video==
+{{#evt:service=cloudfront|id=340517|alignment=center|filename=Auricchio_complas1-2.mp4}}
+{{#evt:service=cloudfront|id=340518|alignment=center|filename=Auricchio_complas2-2.mp4}}