A Methodology to Predict the Impact of Additive Manufacturing on the Aerospace Supply Chain William Bihlman 10.25394/PGS.12168255.v1 https://hammer.purdue.edu/articles/thesis/A_Methodology_to_Predict_the_Impact_of_Additive_Manufacturing_on_the_Aerospace_Supply_Chain/12168255 This dissertation provides a novel methodology to assess the impact of additive manufacturing (AM) on the aerospace supply chain. The focus is serialized production of structural parts for the aeroengine. This methodology has three fundamental steps. First, a screening heuristic is used to identify which parts and assemblies would be candidates for AM displacement. Secondly, the production line is characterized and evaluated to understand how these changes in the bill of material might impact plant workflow, and ultimately, part and assembly cost. Finally, the third step employs an integer linear program (ILP) to predict the impact on the supply chain network. The network nodes represent the various companies – and depending upon their tier – each tier has a dedicated function. The output of the ILP is the quantity and connectivity of these nodes between the tiers.<br><br>It was determined that additive manufacturing can be used to displace certain conventional manufacturing parts and assemblies as additive manufacturing’s technology matures sufficiently. Additive manufacturing is particularly powerful if adopted by the artifact’s design authority (usually the original equipment manufacturer – OEM) since it can then print its own parts on demand. Given this sourcing flexibility, these entities can in turn apply pricing pressure on its suppliers. This phenomena increasing has been seen within the industry. 2020-04-22 16:19:10 additive manufacturing 3D printing aerospace supply chain gas turbine technology readiness level integer linear programming Additive Manufacturing Aerospace Materials Manufacturing Processes and Technologies (excl. Textiles) Mechanical Engineering Engineering not elsewhere classified