UMD’s MS in Materials Science and Engineering gives students the tools to develop metals, polymers, ceramics, and composites for high-performance applications. The program emphasizes structure-property relationships, nanotechnology, and advanced manufacturing.
Design of lightweight metal-matrix composites for aerospace applications
Synthesis and testing of polymer-based shape memory materials
Development of nanostructured coatings for corrosion resistance
Thermal and mechanical characterization of ceramic armor materials
Simulation of atomic-scale defects in semiconductor materials
Additive manufacturing of lattice-structured metamaterials
Fabrication of high-energy-density lithium battery cathodes
Study of magnetocaloric materials for refrigeration applications
Conductive polymer blends for flexible electronics
In-situ TEM analysis of stress-strain behavior in nano-alloys
Thermal conductivity modeling in graphene-polymer composites
High-temperature oxidation resistance study in nickel superalloys
Design of a composite material for wearable biomedical sensors
Research on bioresorbable materials for medical implants
Development of self-healing materials using microencapsulated agents
Fabrication of optical metamaterials for light manipulation
Study of defect generation in ion-irradiated silicon carbide
Evaluation of flame retardant properties in building insulation materials
Mechanical behavior of natural fiber composites under cyclic loads
Design of thermoelectric materials for waste heat recovery systems
Engineer advanced materials for energy, defense, and healthcare through research in UMD’s Materials Science MS.
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