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dc.contributor.authorFerro, Paolo
dc.contributor.authorMeneghello, Roberto
dc.contributor.authorRazavi, Seyed Mohammad Javad
dc.contributor.authorBerto, Filippo
dc.contributor.authorSavio, G.
dc.date.accessioned2021-03-05T11:03:23Z
dc.date.available2021-03-05T11:03:23Z
dc.date.created2020-11-26T22:49:55Z
dc.date.issued2020
dc.identifier.citationPhysical Mesomechanics. 2020, 23 256-262.en_US
dc.identifier.issn1029-9599
dc.identifier.urihttps://hdl.handle.net/11250/2731821
dc.description.abstractAdditive manufacturing techniques are known for the unrivalled geometric freedom they offer to designers. It is one of the mainstays of “metal 3D-printing”, compared to casting, which, in contrast, implies more restrictions because some shapes do not cool evenly or may need moulds or forms. Despite the possible presence of defects inside additive manufactured components, such as oxide films, pores or unmelted powder, they can be strongly reduced or controlled by process parameters optimization. That seems not true for a casting component, in which defects can vary a lot from zone to zone according to the solidification conditions. Porosity inducing process parameters in selective laser melted AlSi10Mg aluminium alloy are carefully analysed with the aim to find optimal conditions that guarantee the maximum material density and the best mechanical properties. Finally, a model is proposed that correlates the amount of pores with the alloy ultimate tensile strength.en_US
dc.language.isoengen_US
dc.publisherSpringeren_US
dc.titlePorosity Inducing Process Parameters in Selective Laser Melted AlSi10Mg Aluminium Alloyen_US
dc.typePeer revieweden_US
dc.typeJournal articleen_US
dc.description.versionacceptedVersionen_US
dc.source.pagenumber256-262en_US
dc.source.volume23en_US
dc.source.journalPhysical Mesomechanicsen_US
dc.identifier.doi10.1134/S1029959920030108
dc.identifier.cristin1853181
dc.description.localcode"This is a post-peer-review, pre-copyedit version of an article. Locked until 12.7.2021 due to copyright restrictions. The final authenticated version is available online at: DOI "en_US
cristin.ispublishedtrue
cristin.fulltextpostprint
cristin.qualitycode1


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