Design and Manufacturing Program
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Time is Right The global competitiveness and rapidly evolving
technologies in computer-aided design and manufacturing have mandated that
graduate curricula in mechanical engineering reflect these changes. The
continuous pursuit of quality products and shorter product cycles has spurred
innovation in product design and manufacturing technologies in recent years.
The graduate emphasis in design and manufacturing, initiated in the
Department of Mechanical Engineering, incorporates an interdisciplinary
approach to design and manufacturing. |
Intended Audience This program is specifically designed to attract both full-time and part-time students who may be employed in industry, government, and research institutions. It is also appropriate for engineers who are re-directing their career paths in an ever-changing economic environment. |
Primary Features of Program • Core courses specifically designed to expose students to a design methodology that intimately involves consideration of the manufacturing processes. • A large variety of non-core courses from ME, ENMA, and CS to offer enough flexibility to enable students to chose a study path that matches their own academic and professional goals. • One-credit hour courses taught by guest instructors from industry. • Hands-on practice with rapid prototyping process, injection molding process and design for manufacturing (DFM) software • Opportunities for co-operation programs |
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Engineering Software Applications This course introduces various engineering software that are useful for engineering communication, analysis and design. Particular software included are MSC/NASTRAN for structural analysis and design optimization, P3/PATRAN for graphic applications and STAR-CD for computational fluid dynamics. Design projects will be assigned in the class for students to practice those software |
Concurrent Engineering This course introduces the principles of Concurrent Engineering to the various stages in a typical design process ranging from conceptual design to parametric designs. The major emphasis of this course is on the integration of the design and design for manufacturing (DFM) materials. Hands-on experience will be based on rapid prototyping work and software applications of DFM applications to injection molded parts and stamped parts. |
Project Course This course is reserved for students who have an
industrial sponsor or a faculty advisor with a funded project. Examples of
past projects are digital image processing of solid objects, telephone pole
crawler, and pin pick-up mechanism for bowling alleys. |
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Facilities Old Dominion University operates an IBM-RS 600/590
workstation, which has vector processing capabilities, and clusters of P.C.’s
in various laboratories throughout campus. In addition, the ME department
has a SUN network consisting of several SUN workstations, IRIS graphics
stations, and numerous microcomputers. The campus-wide computational
facilities are interconnected through a high speed network connection
(0<3). These facilities are also linked to supercomputers at both NASA
Langley and Ames Research Centers and other supercomputing facilities
throughout the country. The Mechanical Engineering Department operates a materials laboratory, a fluid mechanics laboratory, a CFD laboratory, a solid mechanics laboratory, and a composite materials and experimental mechanics laboratory. The department maintains a CAD/CAE laboratory with IBM RS/ 6000 workstations and Textronix graphics terminals. The College of Engineering and Technology also maintains a controls laboratory, a robotics laboratory, and a product/process laboratory equipped with a laser scanner for solid object, a rapid prototyping machine, and software for design for manufacturing and for process modeling. |
Admission Policy The program is tailored for those who have an
undergraduate degree in Mechanical Engineering or equivalent. Students with
degrees in other engineering or scientific disciplines may be required to
take prerequisite courses. Applications with degrees from accredited programs
are required to have a minimum GPA of 3.0 for regular admission. GRE general
test results are required of all applicants, and a minimum TOEFL score of
550 is required of all international students. Limited financial aid awards
are available to qualified applicants. |
Contact Dr. Jen-Kuang Huang, Graduate Program Director (757) 683-3734; e-mail: jhuang@odu.edu |
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Degree Requirements The program offers a Master’s of Engineering degree
in Mechanical Engineering with specialization
in design and manufacturing disciplines. The program requires 30 credit
hours of courses after the B.S. degree in mechanical engineering, or
equivalent, and may be completed in one calendar
year (12 months). Students must take four core courses and six non-core
courses to complete the 30-hour requirement. Most of courses are conveniently
offered in the evening or on TV. The four mechanical engineering core courses
developed specifically for this program are 1. Applied
Mathematics for Design and Manufacturing 2. Advanced
Design 3. Concurrent
Engineering 4. Manufacturing
Automation The remaining six non-core courses can be taken from, but not limited to, the following approved list of courses: |
ME (Mech. Eng.) ENMA
(Eng. Mgt.) Adv.
Dynamics Intelligent Manuf. Sys. Adv.Dyn.
and Control Production
Engineering Advanced
Materials Quality
Control Engr Composite
Materials Reliability
and Maint Computational
Methods II Robust Engr. Dsgn Engineering
Software Appl. Corrosion Design
Optimization CS
(Comp. Sci.) Computer-Integrated
Man. Experimental
Stress Analysis Advanced Computer Fatigue
and Fracture
Artificial Intelligence Finite-Element
Methods Computer-Aided
Design Kinematic
Analys. of Mechs Computer
Graphics . Kinematic
Design/Synthesis Robotics Mech.
Behavior of Matrl Non-Destructive
Testing Optimal
Control Projects Theory of Vibrations |
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