@article{TezelSchultheissHornbergeretal., author = {Tezel, Tugce and Schultheiss, Ulrich and Hornberger, Helga and Kovan, Volkan}, title = {Operational wear behaviour of 3D-printed lightweight metal gears: EDS and oil analysis comparison}, series = {Materials Testing}, volume = {66}, journal = {Materials Testing}, number = {6}, publisher = {de Gruyter}, issn = {0025-5300}, doi = {10.1515/mt-2023-0222}, pages = {830 -- 834}, abstract = {Additive manufacturing (AM) has come to the fore in recent years among manufacturing techniques. This technique, which has different advantages than traditional ones such as casting, forging and machining, is expected to be widely used in producing machine parts like gears in the coming years. Therefore, experimental data on AM parameters for lightweight metal gears are important for industrial production. In this study, a wear test was applied to AlSi10Mg and Ti6Al4V gears under operational conditions, and the wear behaviour of conventionally and additively manufactured gears was compared. The amount of abrasion elements was determined by analysing the oil in the gearbox. In addition, gear surfaces were analysed using scanning electron microscopy and an energy-dispersive spectrometer before and after wear. Thus, the wear behaviour of gears produced by conventional and AM under service conditions was demonstrated comparatively.}, language = {en} }