The study focuses on designing fatigue-critical components produced by Additive Manufacturing (AM), developing a comprehensive workflow for producing L-PBF metal parts, and evaluating their structural integrity through fatigue testing. The approach includes topological optimization, simulation of the AM process, fabrication using an industrial-grade Laser powder bed fusion system and AlSi10Mg alloy powder, and evaluation of material and mechanical properties.
Design, production and qualification of structural components fabricated by metal additive manufacturing: a case study / Uriati, F.. - (2023).
Design, production and qualification of structural components fabricated by metal additive manufacturing: a case study
URIATI, FEDERICO
2023-01-01
Abstract
The study focuses on designing fatigue-critical components produced by Additive Manufacturing (AM), developing a comprehensive workflow for producing L-PBF metal parts, and evaluating their structural integrity through fatigue testing. The approach includes topological optimization, simulation of the AM process, fabrication using an industrial-grade Laser powder bed fusion system and AlSi10Mg alloy powder, and evaluation of material and mechanical properties.File in questo prodotto:
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Uriati_Federico_PhD Thesis_rev.pdf
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