General Information | Degree Programs | Program Descriptions | Course Descriptions | Faculty
Programs in Applied Mathematics |
Department of Biomedical Engineering
Department of Chemical Engineering | Department of Civil Engineering
Department of Computer Science | Department of Electrical Engineering
Engineering Physics Program | Department of Materials Science and Engineering
Department of Mechanical, Aerospace, and Nuclear Engineering | Department of Systems Engineering
The department provides a broad-based graduate education in materials, one component of which emphasizes the commonality among the various classes of engineering solids. Thus thermodynamics, kinetics, structural analysis and crystallography, defect theory, and principles of the solid state are strong features of our program. In addition, other courses relative to the application of materials and the relationships among materials properties, structure and the manner in which materials have been processed are also offered. Extensive research programs complement formal course work. Active recent programs on polymers, environmental effects on material behavior, electronic materials, fatigue and fracture, tribology, composite materials and materials processing reflect the diversity of the faculty's research interests. In addition the department houses the Center for Light Metals, which oversees a variety of research on AI, Mg and Ti alloys and composites containing these metals. A related center, the Center for Light Thermal Structures, conducts interdisciplinary research involving five departments. The Center for Electrochemical Sciences and Engineering, a VCIT Center, is also centered in the department.
The graduate program consists of regular graduate courses and thesis research. While a few courses are considered fundamental, there is still great flexibility in allowing a student to adapt his or her choice of classes according to his or her particular field of interest and specialization. Major emphasis is placed on acquisition of knowledge and development of critical thinking skills by the student, rather than on passing a certain number of courses.
Degrees offered in materials science and engineering are the Master of Materials Science and Engineering, the M.S. (Materials Science and Engineering), and the Ph.D. (Materials Science and Engineering). The Master of Materials Science and Engineering degree was designed to complement the M.S. and the Ph.D. degrees because it fills a definite need not satisfied by the traditional master's and doctoral degrees. The course requirement for the M.M.S.E. degree is satisfactory completion of 30 credits compared to 24 for the M.S. degree. The M.M.S.E. does not require a research thesis.
The Department of Materials Science and Engineering participates in the Virginia Cooperative Graduate Engineering Program and presents on television graduate level courses leading to the Master of Materials Science and Engineering degree. These courses are broadcast via satellite to locations both in and out of state in the late afternoon and early evening hours. Further information on this program can be found elsewhere in this catalog.
Department laboratories are located in the Materials Science Building, and are well equipped with extensive instrumentation for the investigation of all aspects of materials structure and properties. A modern analytical electron microscope facility is available which includes 1) a medium high voltage (400 kV) high resolution electron microscope, 2) a high resolution 120 kV electron microscope equipped for scanning transmission electron microcopy (STEM), energy dispersive x-ray analysis, and electron energy loss spectroscopy, and 3) conventional scanning electron microscopes also equipped for x-ray and electron microprobe analysis. The two analytical facilities are complete with dedicated computer processing facilities for evaluation of the data. X-ray diffraction units are available which provide facilities for a wide variety of single crystal and powder techniques. The polymer science laboratory offers facilities for infrared spectroscopy, viscosity, differential thermal analysis, automatic osmometry, and for the measurement of thermal, electrical, and optical properties of polymers and other macromolecules. Chemical vapor deposition facilities include new equipment for the preparation of electronic materials from metal-organic compounds.
Other laboratories are equipped for research in physical metallurgy, fatigue and fracture, electrochemistry, surface studies, thin film properties, and materials processing.
Their facilities include mass spectrometers, ultra-high vacuum deposition units, electron beam and vacuum furnaces, heat treating equipment, a rolling mill, numerous mechanical testing machines, a hot isostatic press, an x-ray texture gonimeter, optical metallographs, interference, polarizing, and hot stage microscopes, sophisticated image analysis and processing facilities. A fully equipped machine shop and instrument shop are adjacent to the research laboratories.
Computational facilities within the department include two SUN workstations, a microVAX and an RS/6000 Graphics station in addition to many smaller desktop computers (IBM PCs, and Macintoshes) and terminals for interactive use with the extensive computing facilities of the University's Information Technology and Communication (ITC) Department as described in the Facilities and Services section at the beginning of this chapter.
Areas of study include: metallic, polymeric, ceramic, and composite materials; electronic materials; electrochemical sciences and engineering; materials processing; light metals; and structural analysis.
Continue to: Department of Mechanical,
Aerospace, and Nuclear Engineering
Return to: Chapter 9 Index