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Course Criteria
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: Senior of graduate level standing in any College of Engineering Department. Nano manufacturing, silicon Micro machining and fabrication, laser materials processing of microstructures, abrasive micro machining, mechanical micro machining, micro rapid prototyping and sintering, and case studies.
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4.00 Credits
Lec. 2. Lab. 4. Credit 4. Prerequisite: ME 3910 , ME 4751 , and ME 4020 (5020) as a prerequisite with ME 4720 as a corequisite, or ME 4720 as a prerequisite with ME 4020 (5020) as a corequisite. Capstone group design project in mechanical engineering with FE exam review.
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3.00 Credits
Lec. 2. Lab. 2. Credit 3. Prerequisite: ME 3010 and CEE 3110 . Material and manufacturing process constraints on design shape, size and quantity; plastic and fibrous composite parts manufacturing; rapid prototyping; design for X; dimensions and tolerances.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: CEE 3110 , ME 3010 , or consent of instructor. Elastic and anelastic properties, edge and screw dislocations, slip planes, plastic deformation, and properties of ceramics and polymers.
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3.00 Credits
Lec. 2. Lab. 2. Credit 3. Prerequisite: CHEM 1120 , MATH 2120 , and PHYS 2110 . Selected materials synthesis for metals, ceramics and their composites, application of fracture mechanics and failure models, mechanical, chemical, and morphological characterization theory and practice, and materials design.
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3.00 Credits
Lec. 2. Lab. 2. Credit 3. Prerequisite: ME 4460 (5460) Techniques and applications of microstructural analysis; reflected light microscopy; metallography; electron microscopy; and fractography and failure analysis.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3010 . An intermediate course in materials engineering emphasizing the interrelations among material properties, microstructure, and optimum material selection for design applications.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3720 Fundamental principles and equations, thin airfoil theory, finite wings, wings in compressible flow, and aerodynamic drag.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3220 , ME 3710 , and ME 3720 . Fuels, coal properties, firing methods, boilers and other heat exchangers, turbine characteristics, cooling water and towers, dust collection, new developments, and plant trip.
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3.00 Credits
Lec. 3. Credit 3. Prerequisite: ME 3720 . Presents a generalized description and unified theory of the design and operation of rotating machinery in which energy transfer occurs due to velocity changes; design methods for various types of turbomachines –pumps, fans, compressors, and turbines.
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