MAE Graduate

Chris Li MAE Graduate Program Director and Rolls-Royce Commonwealth Professor xl3p@Virginia.edu

Chris Li
MAE Graduate Program Director
Rolls-Royce Commonwealth Professor
xl3p@Virginia.edu

 

Mechanical engineering is one of the largest, broadest, and oldest engineering disciplines.  Mechanical engineers use the principles of energy, materials, and mechanics to design, analyze, optimize and manufacture machines and devices of all types and scales.  They create the processes and systems that drive technology and industry.  Aerospace engineering is a highly specialized, yet widely diverse field.  Aerospace engineers develop innovations and technologies for use in aviation, defense systems, and space exploration.  Our combined graduate program offers the degrees of Master of Engineering (ME), Master of Science (MS), and Doctor of Philosophy (PhD) in Mechanical and Aerospace Engineering.  Both the MS and PhD are research degrees requiring independent research as reported in a final thesis/defense, while the ME degree is a course-based degree with no research requirement.

The Curriculum
The faculty of the department strives to offer graduate courses that will challenge the students’ capabilities, inform them of cutting-edge innovations, and develop in them an appreciation of the deep beauty and history of our discipline. Toward these ends, the curriculum has three goals: 1) to ensure that all graduates possess a broad knowledge of the fundamentals that underlie Mechanical and Aerospace Engineering; 2) to ensure that all graduates have a deep knowledge within one of the department’s three primary disciplines; and 3) to provide sufficient flexibility within our program for interdisciplinary students, acknowledging the great diversity within MAE and its emerging areas.  The particular focus areas range in scales from macro to micro and nano, and in scope from highly theoretical to quite applied, and utilize state-of-the-art analytical, computational, and experimental tools.

Multi-disciplinary Approach
Flexibility exists within our curriculum for multi-disciplinary research and a significant number of courses can be taken outside of MAE. The curriculum is designed to accommodate non-traditional students with undergraduate degrees in other scientific or engineering fields.  It is expected that all applicants will have completed a calculus-based physics course and college mathematics through differential equations.

Financial Aid
Financial assistance in the form of graduate research assistantships, graduate teaching assistantships, and fellowships is provided to almost all qualified full-time MS and PhD graduate students conducting research. In addition, many students within the department receive supplemental fellowships from the National Science Foundation, the Virginia Space Grant Consortium, the American Society of Mechanical Engineers, as well as several internal fellowships handled through the School of Engineering and Applied Sciences (The ME degree is a self-funded degree program).

Research
Research in the solid mechanics area includes studies in: collision/injury mechanics, complex nonlinear simulation restraint optimization, morphing structures, polymer electromechanical devices (PEMs), mechanics of soft materials, neuromuscular biomechanics, movement disorders, musculoskeletal modeling and simulation. Research in dynamical systems and control covers a wide range of problems of practical interest including vibration control, rotor dynamics, magnetic bearings, mechatronics, fluid control, and the use of periodicity to enhance the achievable performance of controlled systems. Research in thermofluids includes topics from micro-scale and non-Fourier heat transfer, combustion (including supersonic), reduced-order chemical kinetics, thermoacoustics, aerogels, low-speed unsteady aerodynamic flows, atmospheric re-entry flows, supersonic mixing, flows in liquid centrifuges, flow in centrifugal pumps, turbomachinery flows, hydrodynamic stability, multi free-surface flows, non-Newtonian fluid mechanics, flow/structure interactions, and free and forced convection.


Facilities
The department’s mechanical and aerospace research facilities include a rotating machinery and controls laboratory; several subsonic wind tunnel laboratories; a supersonic combustion laboratory; a supersonic wind tunnel laboratory; the center for applied biomechanics; the bio-inspired engineering and research lab, the aerospace research lab; a nano-scale mechanics and materials characterization laboratory; a bio thermofluids laboratory; a nano-scale energy transfer laboratory; a control systems laboratory; and an aerogel laboratory.  Several of these laboratories are unique among all universities in the world.

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 UVA graduate student Ayodeji Bode-Oke, first-place winner, presents his project at the Engineering Research Symposium.

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 Tour of MAE’s Rapid Prototyping Lab