The Department of Mechanical Engineering offers graduate programs in the fields of thermal science and engineering mechanics. Current areas of research activity include Biomedical Engineering, Biomimetics, Composite Materials, Computational Mechanics, Design of Ship Structures, and Floating Offshore Platforms, Wind and Hydro Energy Systems, Impact and Fatigue, Mechanics, Fluids and Thermal Sciences. Admission is based on an appropriate baccalaureate degree and the requirements of the Graduate School. Persons holding a bachelor’s degree in another science or engineering discipline may be admitted, however some undergraduate courses may be required without graduate credit.
Each student in consultation with his or her graduate committee plans an individual program of study. The MS degree program will include courses from both the engineering mechanics and thermal science fields. The Ph.D. degree is more narrowly focused on a topic of common interest to the student and his or her faculty advisor. For students with a strong interest in other disciplines, excellent opportunities exist for an interdisciplinary program of study in which up to 40 per cent of the MS degree credit is done in another department in the university. Interdisciplinary Ph.D. research is done in collaboration with faculty in other disciplines. Work in other disciplines is encouraged as a part of a coherent degree in Mechanical Engineering.
The Master of Science degree with thesis requires a minimum of 5 semester hours of thesis-credit, 1 credit hour of INT 601 Responsible Conduct of Research as well as 24 semester hours of acceptable course work. The non-thesis Master’s degree requires a minimum of 30 semester hours of course work and a comprehensive examination. Several graduate research assistantships as well as teaching assistantships are available in the Department. Other financial assistance available is described elsewhere in this catalog.
Michael T. Boyle, Ph.D. (Connecticut, 1984), Associate Professor. Experimental fluid mechanics and heat transfer, three-dimensional flow through gas turbine passages, electronics cooling, thermal modeling of industrial devices.
Vincent Caccese, Ph.D. (Drexel, 1985), Professor. Nonlinear finite element analysis, hybrid connections, seismic behavior and vibration analysis and design, fatigue analysis, impact resistant materials for personal protection.
Andrew J. Goupee, Ph.D. (University of Maine, 2010), Libra Assistant Professor. Simulation and model testing of floating offshore structures, solid mechanics, structural optimization.
Donald A. Grant, Ph.D. (Rhode Island, 1969), Emeritus Professor, Vibrations of discrete and continuous systems.
Zhihe Jin, Ph.D. (Tsinghua, University, 1988), Professor and Graduate Coordinator. Mechanical behavior of advanced materials, fracture mechanics, thermal stresses, geophysics.
Michael “Mick” Peterson, Ph.D. (Northwestern University, 1994), Professor. Engineering mechanics, granular materials, elastic waves and applications in veterinary medicine.
Justin H. Poland, Ph.D. (Colorado, 1979), Associate Professor. Heat transfer, thermodynamics and fluid mechanics of refrigeration systems, and heating and cooling of buildings.
David Rubenstein, Ph.D. (The Pennsylvania State University, 1995), Research Associate Professor of Aerospace Engineering, mathematical modeling and dynamic simulation development, sensor fusion and estimation algorithms and software, guidance, navigation and control (GN&C) system design, autonomous systems, turbine control technologies.
Mohsen Shahinpoor Ph.D. (University of Delaware, 1970), Smart/Intelligent materials, Biomimetics and artificial muscles, mechatronics, electroactive polymers, advanced nanocomposites, Biomedical engineering.
Richard Sayles, Ph.D. (Brown University, 1981), Associate Professor. Fluid mechanics and heat transfer.
James Sucec, M.S. (Connecticut, 1963), Professor. Transient forced convection heat transfer. Heat transfer across turbulent boundary layers.
Krish Thiagarajan, Ph.D. (University of Michigan, 1993), Professor and Correll Chair in Energy. Hydrodynamics of offshore structures, fluid-structure interaction, dynamic response of marine platforms, computational modeling and model testing.
Senthil S. Vel, Ph.D. (Virginia Tech, 1998), Arthur O. Willey Professor. Solid mechanics, smart structures, finite element and meshless methods, composite materials, simulation-based design of advanced material systems.
Xudong, Zheng, Ph.D. ( George Washington University, 2009), Assistant Professor. Fluid Mechanics, computational fluid dynamics, flow structure interaction, biofluids.