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Course Criteria
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3.00 Credits
(219) Either semester. Three credits. Prerequisite: MSE 2001 or 2101. Kattamis Basic materials principles applied to fusion and solid phase welding, brazing and other joining processes. Effects of joining process and process variable values on microstructure, soundness and mechanical properties of as-processed joints. Treatment and properties of joints and joined assemblies. Joining defects and quality control.
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3.00 Credits
(234) Semester by arrangement. Three credits. Prerequisite: MSE 2001 or 2101. Corrosion and materials protection designed for engineering students. Principles of materials degradation, extensive case histories and practical applications. Selection of metals, alloys, ceramics and polymers for atmospheric, soil, marine and chemical environments. Evaluation methods, protective measures and the techniques of failure analysis.
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3.00 Credits
(238) Second semester by arrangement. Three credits. Prerequisite: MSE 3002 and 3003. Principles of alloy solidification are discussed and applied in the context of sand, investment, and die casting; continuous and direct chill casting; electroslag and vacuum arc remelting, crystal growth, rapid solidification, and laser coating.
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1.00 - 3.00 Credits
(298) Both semesters. Variable (1-3) credits. Prerequisite: Consent of instructor. With a change in topic this course may be repeated for credit.
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3.00 Credits
(260) Either semester. Three credits. Prerequisite: MSE 2002. Introduces synthesis and design of materials in the nanoscale. Typical synthesis strategies of low dimensional materials including nanoparticles, nanowires, nanotubes and hierarchical nanostructures are presented and discussed. The reasons behind growth mechanisms are interpreted and the nanoscale structure-properties relations are described. Design strategies of multifunctional nanomaterials will be addressed as well. Readings from modern scientific literature are assigned weekly for in-class discussions.
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3.00 Credits
(261) Either semester. Three credits. Prerequisite: MSE 2002. Introduces materials characterization and applications at the nanoscale. Standard and advanced methods in Scanning Probe Microscopy, Electron Microscopy, and Focused Ion Beams are presented. Self-Assembled and Lithographically defined structures are treated. Nanoscale particles, tubes, films, and structures are discussed. Applications for enhanced mechanical, electronic, magnetic, optical, and biological properties are described. Societal implications including performance, costs, environmental impacts, and health issues are addressed. Readings from modern scientific literature are assigned weekly for in-class discussions.
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2.00 Credits
(287) Either semester. Two credits. Six hours practicum. Prerequisite: MSE 3002 and 3004, which may be taken concurrently. Seniors working in teams with faculty and industry mentors solve open-ended projects in design of materials, products, and processes. Oral and written reports are required in each semester. For students with high academic standing the BSE and MS projects may overlap.
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2.00 Credits
(288W) Either semester. Two credits. Six hours practicum. Prerequisite: MSE 4901; ENGL 1010 or 1011 or 3800. Seniors working in teams with faculty and industry mentors solve open-ended projects in design of materials, products, and processes. Oral and written reports are required in each semester. For students with high academic standing the BSE and MS projects may overlap.
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3.00 Credits
(299) Both semesters. Credits and hours by arrangement. Prerequisite: Consent of instructor. With a change in topic this course may be repeated for credit. Some sections of this course are graded Satisfactory/ Unsatisfactory. Methods of research and development. Laboratory investigation. Correlation and interpretation of experimental results. Writing of technical reports.
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4.00 Credits
(210) First semester. Four credits. One 2-hour lecture, 4 hours of laboratory. Prerequisite: CHEM 2241 or MCB 2000 or MCB 3010 which may be taken concurrently. Open only to Medical Technology majors; others with consent of Medical Technology Program Director. Fundamentals of microbial classification, structure, growth and metabolism. Principles of disease and epidemiology, mechanisms of pathogenicity and identification of bacteria causing human disease. A fee of $13 is charged for this course.
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