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Course Criteria
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4.00 Credits
A study of the basic concepts of vibration and noise. Designing equipment for survival in vibration and shock environments. Methods of reducing noise in machinery structures. Environmental tests for vibration and shock. Methods of vibration and noise analysis will be demonstrated. (1016-304, 0610-405) Class 4, Credit 4
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2.00 Credits
The fundamentals of fl uid statics and dynamics are studied. This includes the principles and applications of fl uid statics, fl uid kinematics, fl uid kinetics, the energy conservation principle, dimensional analysis and fl uid momentum. Also covered are laminar and turbulent fl ow in pipes and products, fl uid machinery, fl uid meters, and lifting vanes. (1016-304) Class 3, Recitation 2, Credit 4
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3.00 Credits
Students perform laboratory experiments in thermodynamics, fl uid mechanics and heat transfer. Students will do a group project involving the design of an experiment, its instrumentation, method of test, data analysis and fi nal report presentation. Special emphasis is placed on report preparation and computeraided data reduction. (0610-440, 460) Class 1, Lab 3, Credit 3
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0.00 Credits
One quarter of appropriate work experience in industry. (0606-099) Credit 0
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2.00 Credits
The static theories of failure and mechanical fatigue analysis are reviewed. These concepts are applied to the selection, analysis, and design of power transmission shafts, power screws, fasteners, springs, and spur gears. The design and selection of both hydrodynamic and rolling element bearings are studied. (0610-403) Class 3, Studio 2 Credit 4
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2.00 Credits
The study of the machine design principles in a design team environment to conceptualize design, build and test a product or mechanical system. Group projects from industry or school laboratory are emphasized. (0610-405, 506) Class 3, Lab/Project 2, Credit 4
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4.00 Credits
Integrates product development and design processes with establishing a need for the product; developing concepts; generating and evaluating the product concepts; developing specifi cations and design reviews; considering production, service and retirement. Special emphasis is placed on team work (concurrent engineering), determining customer requirements (quality function deployment), design for manufacturing and assembly (DFMA) and quality/ reliability. Students learn how to reduce material and part costs, assembly time and the number of parts in the product. Class 4, Credit 4
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3.00 Credits
The use of computer simulation and fi nite element method in solving mechanical design problems, such as stress concentration, dynamic impact, thermal stresses. Industrial projects are emphasized. (0610-405, 506) Class 2, Lab 3, Credit 4
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4.00 Credits
Various methods used to manufacture plastics products. Topics include compression molding, rotational molding, extrusion, injection molding, blow molding and thermoforming. (Fourth year status) Class 4, Credit 4
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4.00 Credits
The study of design guidelines for plastics products based on the interrelationships between product design, the material selected, the manufacturing process selected, and the tooling to be used. (0610-515 or permission of the adviser) Class 4, Credit 4
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