Anisotropy of additively manufactured AlSi10Mg: threads and surface integrity

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Journal Title
Journal ISSN
Volume Title
A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä
Date
2020-04-01
Major/Subject
Mcode
Degree programme
Language
en
Pages
18
Series
International Journal of Advanced Manufacturing Technology
Abstract
Implementing additive manufacturing in an industry, particularly for critical applications of lightweight aluminum (AlSi10Mg), requires part properties that are both accurate and precise to conform to the intent of a robust design. In this experimental study, the objective was to evaluate anisotropy in part properties (i.e., flatness, surface roughness, surface porosity, surface hardness, pre-hole shrinkage, drilling thrust force, and thread-stripping force) when the part orientation (i.e., print inclination and recoater angle) was independently changed. This study developed and investigated an innovative procedure for determining anisotropy in part properties. The part properties were evaluated by designing specific features on a tailor-made flat plate. The replicas of the aluminum plate were additively manufactured at varying orientations using two commercial EOS parameter sets for the laserbased powder bed fusion technique. Conventional measurement equipment was used to analyze all the part properties, except the thread-stripping force, which was measured using a custom-made setup. All the part properties indicated a considerable degree of anisotropy, excluding the drilling thrust force. The printing parameters dictate the significance of the anisotropy. The anisotropy in flatness and pre-hole shrinkage decreases with an increased substrate temperature and a decrease in energy input and thermal gradient. The presence of surface overlapping contours in the scan strategy and an increased energy input can reduce anisotropy in surface roughness and hardness. No significant anisotropy was detected when the recoater angle was changed. This study helps designers establish and substantiate design for additive manufacturing that is within the limits of appropriate anisotropy for a robust design
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Keywords
3D printing, Direct metal laser sintering (DMLS), Print orientations, Recoater angle, Machining allowance, Threads, Design
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Citation
Ullah , R , Akmal , J S , Laakso , S & Niemi , E 2020 , ' Anisotropy of additively manufactured AlSi10Mg: threads and surface integrity ' , International Journal of Advanced Manufacturing Technology , vol. 107 , no. 9-10 , pp. 3645-3662 . https://doi.org/10.1007/s00170-020-05243-8