Metal injection molded (MIM) 17-4 PH stainless steels are wildly applied in the aircraft and medical industries due to their good combination in mechanical properties and corrosion resistance. Most previous works have been focused on the effects of aging conditions and alloying additions on the sintered properties and little studies are about the carbon content and SiO2 inclusions, which is believed to deteriorate significantly the mechanical properties. Therefore, the objective of this study was to get improved mechanical properties and corrosion resistance by controlling the carbon content and eliminating SiO2 inclusions in the 17-4 PH MIM parts. The results show that most SiO2 could be eliminated by adding 0.20% graphite. The highest hardness (HRC 30.3) and tensile strength (1048 MPa) was achieved by adding 0.26% graphite, which resulted in a carbon content of 0.031%. The relative density was 99.1%. After solution and aging treatment, the hardness and tensile strength were increased to HRC 40.4 and 1311 MPa, respectively, and the elongation only decreased slightly from 9.8 to 9.0%. These are very close to those of the wrought 17-4PH stainless steels. Since the cooling rate in the vacuum furnace, which was equipped with a fan, was relatively fast in the cooling stage of the sintering cycle, direct H900 aging, without solution treatment, was attempted and the mechanical properties are comparable to those using standard solution-aging treatment. Although graphite was added, chromium carbide was not found in sintered parts due to the formation of NbC at the grain boundaries. As a result, the good corrosion resistance of the 17-4 PH was retained. The same approach of adding graphite to eliminate SiO2 was also applied to 316L and sinter-hardening steels and similar results were obtained.