Duke’s combined MS in Mechanical Engineering and Materials Science empowers innovators to co-optimize form and substance—from soft robots that sense touch to hydrogen-turbine blades resisting 1200 °C. Core studios integrate finite-element optimization, additive manufacturing, and microstructure-property correlation, while venture labs guide prototypes into seed-funded start-ups.
Shape-memory alloy actuator for autonomous underwater gliders
AI-optimized lattice heat exchanger for electric-vehicle batteries
Soft-gripper robot hand printed in variable-durometer TPU
Hydrogen combustion model reducing turbine NOx emissions
Self-healing polymer coatings for offshore wind blades
Origami-folding drone for compact disaster-relief delivery
3-D printed metal foam for impact-absorption bicycle helmets
Machine-learning predictive maintenance on CNC mills
Bio-inspired ventilation system using termite-mound geometries
Hybrid rocket engine using recycled plastics as fuel
Thermoelectric generator harvesting waste heat from servers
Microscale resonators for vibration energy harvesting
Blockchain traceability for aerospace alloy recycling
VR haptic toolkit teaching kinematics principles
Integrate mechanics and matter to build transformative technologies at Duke.
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