The PhD in Mechanical Engineering at UF prepares researchers to innovate in areas such as thermofluids, control systems, manufacturing, biomechanics, and computational mechanics. Students apply theory and experimentation to design sustainable and high-performance systems. Graduates take on leadership roles in industry R&D, national labs, and academia.
Thesis on multiscale modeling of fatigue in additively manufactured metals
Design and simulation of bioinspired soft robotic actuators
Energy efficiency analysis of thermoelectric refrigeration systems
Control system design for quadrotors in GPS-denied environments
Computational analysis of cavitation dynamics in marine propellers
Study on heat exchanger design using phase change materials
Vibration isolation system design for precision manufacturing platforms
Thesis on thermal runaway mitigation in lithium-ion battery systems
Fluid-structure interaction modeling in prosthetic heart valve design
Development of hybrid cooling systems for high-power electronics
Optimization of airfoil geometries using genetic algorithms
Micromechanical characterization of fiber-reinforced composites
Simulation of supersonic flow over scramjet inlet geometries
Design of an autonomous underwater vehicle propulsion system
Biomechanical modeling of human gait for rehabilitation robotics
Predictive maintenance modeling for smart HVAC systems
Topology optimization for lightweight aerospace components
Control theory application in multi-agent robotic coordination
Experimental validation of heat transfer enhancement techniques
Thesis on nonlinear dynamics in magnetoelastic energy harvesters
Create sustainable, intelligent mechanical systems through innovative research and design.
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