Investigation of Manufacturability and Efficiency of Micro Channels with Different Geometries Produced by Direct Metal Laser Sintering
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2021Author
Çalışkan, Cemal İrfanCoşkun, Mert
Özer, Gökhan
Koç, Ebubekir
Vurkır, Turgut Azer
Yöndem, Gökay
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ÇALIŞKAN, Cemal İrfan, Mert COŞKUN, Gökhan ÖZER, Ebubekir KOÇ, Turgut Özer VURKIR & Gökay YÖNDEM. "Investigation of Manufacturability and Efficiency of Micro Channels with Different Geometries Produced by Direct Metal Laser Sintering." The International Journal of Advanced Manufacturing Technology, (2021).Abstract
Manufacturability without supports in design studies for additive manufacturing (AM) brings many advantages such as time,
cost, part surface quality, and design freedom. It is thought that the geometries that can be produced without support will help the
more widespread use of AMtechnologies. In this study, the unsupported manufacturability and efficiency research of conformal
cooling channel (CCC) geometries created in cylindrical, wide oval, drop, hexagonal, narrow oval, and pentagonal cross-sections
were conducted in the direct metal laser sintering (DMLS) system. The study offers innovation in terms of showing the usability
of different channel geometries in CCC applications. The study shows that the pentagon form has the most efficient cooling
capacity among the comparatively handled geometries. The results are obtained by a computational fluid dynamics (CFD)
analysis study on computer-aided design (CAD) data of the actual state channel geometry obtained by CAD and postproduction
micro-CT scanning of the design and presented in tables. This research shows that the production-induced sagging
problem affects the flow by narrowing the channel hydraulic diameter in channel geometries produced without CCC supports.