dos Santos, ClaudineiHabibe, Alexandre FernandesSimba, Bruno Galvão [UNESP]Lins, Jefferson Fabrício Cardosode Freitas, Bruno XavierNunes, Carlos Angelo2020-12-122020-12-122020-01-01Materials Research, v. 23, n. 2, 2020.1980-53731516-1439http://hdl.handle.net/11449/199316In this work, CoCrMo-base alloys specimens were produced by additive manufacturing using selective laser melting (SLM) as well as CAD/CAM milling. For SLM specimens, spherical particles were laser processed at 1320°C under argon atmosphere and submitted to thermal stress relieving at 750°C-45min. Specimens from CoCrMo blocks were milled by CAD/CAM machining and sintered at 1300°C-60min. The materials from both techniques were characterized by relative density, dilatometry, SEM/BSE, OM and XRD analysis. The mechanical properties were determined by Vickers hardness and tensile tests. The specimens from both techniques exhibited single phase γCo (FCC) and CTE of 14 x10-6 °C-1. Relative density of 95.4%/ 85.6%, hardness values near 400HV/ 350HV and UTS of 905MPa/ 780MPa were measured for SLM and CAD/CAM specimens, respectively. Higher relative density is the main factor for increased mechanical properties of SLM specimens. On the other hand, both SLM and CAD/CAM specimens present properties in accordance with ISO-22674 recommendations, compatible with dental applications such as bridges containing four or more elements as well as fully dense pontics.engAdditive manufacturingCAD/CAM millingCoCrMo metal systemDental alloysMechanical propertiesMicrostructural characterizationSelective laser meltingArtigo10.1590/1980-5373-MR-2019-0599S1516-14392020000200213Acesso aberto2-s2.0-85090034602S1516-14392020000200213.pdf