We present the development and characterization of Inconel 718— a nickel-chromium-molybdenum superalloy—manufactured using MoldJet® technology. MoldJet® is an additive manufacturing process that builds parts layer by layer by filling inkjet-printed Mold with a slurry-based feedstock, yielding green parts with a volumetric density exceeding 62%.

These green Inconel 718 parts were subsequently debinded and sintered, achieving relative densities above 98.5%. The resulting components exhibit excellent mechanical properties, including high elongation. This work details the printing process, debinding methodology, and optimization of sintering parameters.

Additionally, we report on parts subjected to Hot Isostatic Pressing (HIP), followed by solution treatment and precipitation hardening. The final properties meet the stringent requirements of AMS 5917—Aerospace Material Specification for Metal Injection Molding Nickel-Based Alloy 718 components.

The produced Inconel 718 parts are well suited for high-temperature, high-strength applications, such as those found in jet engines and gas turbines.