Modeling the melt pool of the laser sintered Ti6Al4V layers with Goldak's double-ellipsoidal heat source

E. Soylemez*

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10 Atıf (Scopus)

Özet

Selective laser melting process has been widely studied to elucidate the effects of process parameters (laser speed, laser power, scan strategy, hatch distance, layer thickness, etc.) on the manufactured parts. Experimental and numerical modeling studies have been investigating the melt pool shapes of the laser sintered layers to correlate the melt pool geometry with the part quality. Although modeling results agree with the experiments, the melt pool cross-section may form key holing rather than semi-circular shape due to Marangoni effect, recoil pressure, and sudden evaporation for some process parameters combinations. To accurately model the melt pool depth, this study proposes a finite element analysis (FEA) model that simulates the laser source as the Goldak's double-ellipsoidal heat power density model. Single bead experiments of Ti6Al4V were conducted within the processing range of laser sintering system with the 400 W laser, and these experimental results allowed to verify simulated FEA results.

Orijinal dilİngilizce
Sayfalar1721-1736
Sayfa sayısı16
Yayın durumuYayınlandı - 2020
Harici olarak yayınlandıEvet
Etkinlik29th Annual International Solid Freeform Fabrication Symposium - An Additive Manufacturing Conference, SFF 2018 - Austin, United States
Süre: 13 Ağu 201815 Ağu 2018

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???event.eventtypes.event.conference???29th Annual International Solid Freeform Fabrication Symposium - An Additive Manufacturing Conference, SFF 2018
Ülke/BölgeUnited States
ŞehirAustin
Periyot13/08/1815/08/18

Bibliyografik not

Publisher Copyright:
© Solid Freeform Fabrication 2018: Proceedings of the 29th Annual International Solid Freeform Fabrication Symposium - An Additive Manufacturing Conference, SFF 2018. All Rights Reserved.

Finansman

The author wishes to acknowledge Mert Coskun of the Fatih Sultan Mehmet University for performing the experiments and helping with the experimental planning. The author also would like to thank Michael Gouge and Sualp Ozel for their guidance on the Netfabb Simulation practices. The author also thanks to Semih Guven, a technical staff at the Marmara University for helping to polish the experimental samples, and Anil Gorkem Yekdes, an undergraduate student for helping the post-processing of the experimental and the numerical analysis data. The author gratefully acknowledges The Scientific and Technological Research Council of Turkey (TÜBITAK) through Project No: 216M033.

FinansörlerFinansör numarası
Mert Coskun of the Fatih Sultan Mehmet University
Türkiye Bilimsel ve Teknolojik Araştirma Kurumu216M033
Marmara Üniversitesi

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