Research

Research

Laser Powder Bed Fusion Additive Manufacturing (L-PBF-AM)

• Integrating experimental, computational, and data-driven techniques to optimize the process.
• Enhancing the quality of AM products through the establishment of a logical correlation between Composition, Geometry, Process, and Performance.
• Design and fabricate novel smart metal structure with a high stiffness-to-weight ratio for aerospace, medical, defense, and energy applications.

Efficient Metal Manufacturing by Extrusion-based AM and Sintering Techniques

• advanced filament-based AM approaches to enable the fabrication of metal composites.
• Improving outer space manufacturing with zero gravity conditions by Extrusion-based AM.

Design, Fabrication and Experimentation of High-Performance Materials

• data-driven compositional design of shape memory alloys and high entropy alloys

• nanoparticle-reinforced polymer composites for advanced applications

• pre/post-fabrication treatments to enhance or tailor the thermomechanical response