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Course Criteria
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3.00 Credits
(230) Either semester by arrangement. Three credits. Prerequisite: MSE 3004. Principles and applications of manufacturing and mechanics of polymer-matrix, and ceramic-matrix composites. Processing and properties of fibers. Interface characteristics. Design of components using composite materials.
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3.00 Credits
(232) Semester by arrangement. Three credits. Prerequisite: MSE 2001 or 2101. Plastic deformation of metals and other solid materials at elevated temperatures. Dislocation mechanisms; creep processes; oxidation. Strengthening mechanism, including ordering and precipitation hardening.
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1.00 Credits
(286) First semester. One credit. Prerequisite: MSE 2053. Corequisite: MSE 3003. One 3-hour laboratory period. Illustrative processing, microstructural characterization and control. As-cast, wrought, and solutionized non-ferrous alloys, dendritic, nondendritic, and eutectic microstructures. Heat-treated ferrous alloys. Composites. Powder metallurgyprocessed, and weld microstructures.
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1.00 Credits
(285) Second semester. One credit. Prerequisite: MSE 3004, which may be taken concurrently. Three hour laboratory. Characterization of mechanical properties of materials and fundamentals of materials deformation and fracture processes will be experienced through hands-on projects with tensile, rheological, cyclic, and high temperature testing; drawing; forging; extrusion; rolling; and hot pressing.
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1.00 Credits
(202) Both semesters. One credit. One 3-hour laboratory period. Prerequisite: MSE 2101, which may be taken concurrently. Experiments will illustrate the relationships between processing, properties and microstructure for common industrial materials. Topics include sample preparation techniques, quantitative metallography, xray diffraction, light and electron microscopy, tensile and fatigue testing, phase transformations, heat treatment, corrosion.
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3.00 Credits
(267) First semester. Three credits. Prerequisite: PHYS 1502Q and MSE 2001; or MSE 2101. Principles underlying electrical and magnetic behavior will be applied to the selection and design of materials. Topics covered will include: thermoelectricity, photoelectricity, conductors, semiconductors, superconductors, dielectrics, ferroelectrics, piezoelectricity, pyroelectricity, and magnetism. Device applications.
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3.00 Credits
(236) Semester by arrangement. Three credits. Two class periods and, every other week, a 3-hour laboratory period. Laboratory sections in addition to those initially listed will be arranged. Prerequisite: MSE 2001 or 2101. Principles and experimental methods of optical, electron, and x-ray examination of engineering materials. Emphasis on use of x-ray analysis, with introduction to electron microscopy, Auger spectroscopy, scanning electron microscopy, and microanalysis.
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3.00 Credits
(236W) Prerequisite: MSE 2001 or 2101; ENGL 1010 or 1011 or 3800.
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3.00 Credits
(276) Second semester. Three credits. Prerequisite: MSE 3004, may be taken concurrently. Fundamental principles of materials processing and their quantitative application to process design will be illustrated for deformation processes: forging, rolling, drawing, extrusion, injection molding, powder compaction and sintering.
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3.00 Credits
(277) Second semester. Three credits. Prerequisite: MSE 3001and 3002. Fundamental principles of materials processing and their quantitative application to process design will be illustrated for materials processes involving liquids and gasses: crystal growth, zone refining, shape casting, continuous casting, refining, welding, and vapor deposition.
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