Authors: Joshua Lim
Mentors: Nathan Crane
Insitution: Brigham Young University
Metal additive manufacturing (3D printing) technologies have evolved in the past decade to produce intricate parts in aerospace, car, and biomedical industries. While previous work has been done on single materials, metal-metal composites can expand performance but hasn’t been thoroughly explored. This work investigates ways of creating composites by molted bronze infiltration. At a certain temperature, bronze is melted and seeps through parts that are made via additive manufacturing. By altering the geometry of the pathways that the molten bronze will travel through or the metal particles themselves, one can create unique parts that control where the bronze infiltrates. Initial results indicate that mechanical properties were measurably strengthened by the addition of molten bronze and hypothetically could be used to create thermally graded parts, optimized for specific applications where heat transfer is a parameter of interest.