CMU’s MechE PhD propels innovators into domains spanning robotics, energy, and bio-mechanics. Dissertation work could entail additive manufacturing of hypersonic components, AI-driven combustion modeling, or soft exoskeleton dynamics. Interdisciplinary seminars on climate ethics and tech commercialization complement deep technical inquiry.
Topology-optimized heat-exchanger lattice printed in Inconel 718
Hydrogen micro-combustor CFD study for micro-turbine generators
Biomechanical simulation of soft-tissue response to wearable robots
Meta-material vibration damper tuned via generative design
Transient thermal management system for lunar lander electronics
Multi-physics model of thermal runaway in Li-ion battery packs
AI surrogate reducing CFD cost in supersonic nozzle design
Frugal biomechanics prosthetic knee tested in low-resource settings
Cryogenic fluid slosh control using acoustic forcing
Circular life-cycle assessment of 3-D printed aerospace structures
Self-healing polymer gear for autonomous underwater vehicles
On-board ML fault detection for eVTOL propulsion
Passive radiative cooling panels using micro-structured surfaces
Policy analysis on additive manufacturing export controls
Open-source toolbox for digital-twin validation against sensor data
Advance machines, energy, and biomechatronics with CMU MechE.
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