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Srpski arhiv za celokupno lekarstvo 2019 Volume 147, Issue 11-12, Pages: 664-669
https://doi.org/10.2298/SARH190706112S
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Selective laser melting and sintering technique of the cobalt-chromium dental alloy

Stamenković Dejan (University of Belgrade, School of Dental Medicine, Belgrade, Serbia)
Obradović-Đuričić Kosovka (University of Belgrade, School of Dental Medicine, Belgrade, Serbia)
Rudolf Rebeka (University of Maribor, Faculty of Mechanical Engineering, Maribor, Slovenia)
Bobovnik Rajko (Faculty of Polymers Technology, Slovenj Gradec, Slovenia)
Stamenković Dragoslav (Serbian Medical Society, Academy of Medical Sciences, Belgrade, Serbia)

Introduction/Objective. The objective of this paper is to describe the microstructure and mechanical properties of sintered Co-Cr alloy and to emphasize its advantages and disadvantages with respect to the microstructure and mechanical properties of cast Co-Cr alloy. Methods. Base Co-Cr alloy, EOSint M EOS Co-Cr SP2 (EOS GmbH, Munch, Germany), was used for the purpose of this research as the base material for sintering metal structures of metal-ceramic restorations. Metal sintering was conducted by using EOSint M 280 device of German origin in a stream of neutral gas – argon. After that, the alloy was heated over a period of 20 minutes at the temperature of 800°C. The chemical composition of the alloy was determined by energy dispersive spectroscopy. Microstructure of the tested alloy samples was examined under an optical metallographic and scanning electron microscope. Physical and mechanical properties were measured in a universal testing machine. The samples were prepared according to the standard ISO 527-1:1993. Results. Chemical composition of the sintered Co-Cr alloy, determined by applying energy dispersive spectroscopy, indicated the same qualitative but different quantitative composition compared to cast Co-Cr alloys. The microstructure of the sintered Co-Cr alloy is lamellar in nature, with two dominant phases: ξ-Co and/or ξ-Cr (fcc – face-centered cubic) and γ-Co (hcp – hexagonal close-packed). Mechanical properties of the Co-Cr alloy obtained by applying selective laser melting technology compared to the cast Co-Cr alloy are superior or approximately the same. Conclusion. Selective laser melting of the Co-Cr alloy is a good example of new technologies based on digitization. Together with other digitized procedures, this technology is an introduction to a new era in dentistry popularly called Dentistry 4.0. The advantages of the selective laser melting technology with respect to the conventional technology of casting Co-Cr alloy metal structures are precise metal structure fitting and eco-friendly technology.

Keywords: selective laser melting, sintering technique, Co-Cr alloy