Sánchez-Moreno, José ManuelJosé ManuelSánchez-MorenoOrdóñez, AlejandroAlejandroOrdóñezGonzalez-Ojeda, RobertoRobertoGonzalez-Ojeda2024-03-202024-03-202006-12-019780976205760https://scripta.up.edu.mx/handle/20.500.12552/101862-s2.0-84883385140Ultrafine WC-Co milling tools were wear-tested in finishing machining conditions. Mills manufactured in the laboratory followed the powder metallurgy route for ultrafine grades. Total density in hardmetal grades of 0.2 and 0.4 μm was achieved through the Sinter + HIP technique. Wear in laboratory mills was compared with wear in coarse and ultrafine grade commercial mills. All mills cutting edges suffered wear mainly in the abrasive and chipping form. Chipping was excessive and peculiar in form in the laboratory mills; a slight presence of the fragile η phase was discovered. Laboratory mills showed similar wear to the commercial coarse grades, and much more than that of commercial ultrafine grades. A lack of toughness is suggested due to a small difference in the WC mean grain size, in the Co mean free path (λ) and in its distribution: homogeneous in laboratory mills and heterogeneous in the commercial ones. ©Metal Powder Industries Federation (MPIF)enPowder metallurgySinteringCutting edgesHardmetal gradesLaboratory millMachining conditionsMean free pathMean-grain sizeMilling toolsTotal densityResource Types::text::conference output::conference proceedings::conference paper